Integral actuator design

What is claimed is: 1. An actuator drive unit housing, comprising: an integrally formed ring gear located at a first axial end of the actuator drive unit housing, wherein teeth of the integrally formed ring gear are formed in an interior surface of the actuator drive unit housing; an integrally formed thrust bearing race formed in an exterior surface of the actuator drive unit housing and located proximate a second axial end of the actuator drive unit housing opposite the first end of the actuator drive unit housing; and an integrally formed load cell, wherein a first column of the integrally formed load cell is defined by a portion of the actuator drive unit housing located between the integrally formed thrust bearing race and the second axial end of the actuator drive unit housing. 2. The actuator drive unit housing of claim 1 , wherein the integrally formed load cell comprises a plurality of columns defined by openings between adjacent columns, the plurality of columns including the first column. 3. The actuator drive unit housing of claim 2 , wherein at least one of the plurality of columns is configured to orient a direction of an applied force through the integrally formed load cell. 4. The actuator drive unit housing of claim 2 , wherein the openings are positioned approximately 90 degrees apart about an annular surface of the actuator drive unit housing. 5. The actuator drive unit of housing claim 1 , wherein the integrally formed load cell comprises a channel configured to route a wire. 6. The actuator drive unit housing of claim 1 , wherein the integrally formed load cell further comprises a strain gauge. 7. The actuator drive unit housing of claim 1 , further comprising a sensor flush mounted on the actuator drive unit housing within a recess. 8. The actuator drive unit housing of claim 1 , wherein a strain gauge of the load cell is configured to measure a linear load through an actuator drive unit. 9. An actuator drive unit housing, comprising: an integrally formed ring gear located at a first axial end of the actuator drive unit housing; an integrally formed thrust bearing race; and an integrally formed load cell having a first column defined by the actuator drive unit housing, wherein the first column is located between the integrally formed thrust bearing race and a second axial end of the actuator drive unit housing opposite the first axial end of the actuator drive unit housing. 10. The actuator drive unit housing of claim 9 , wherein the integrally formed load cell comprises a plurality of columns defined by openings between adjacent columns, the plurality of columns including the first column. 11. The actuator drive unit housing of claim 10 , wherein at least one of the plurality of columns is configured to orient a direction of an applied force through the integrally formed load cell. 12. The actuator drive unit housing of claim 9 , wherein the integrally formed load cell comprises a channel configured to route a wire. 13. The actuator drive unit housing of claim 9 , wherein the column of the integrally formed load cell defines a recess, and wherein a strain gauge is disposed within the recess. 14. The actuator drive unit housing of claim 9 , wherein teeth of the integrally formed ring gear are formed in an interior surface of the actuator drive unit housing. 15. An actuator drive unit housing, comprising: an thrust bearing race formed in an exterior surface of the actuator drive unit housing; and an integrally formed load cell having a plurality of columns defined by the actuator drive unit housing, wherein the plurality of columns are located between the thrust bearing race and a first axial end of the actuator drive unit housing. 16. The actuator drive unit housing of claim 15 , wherein at least one of the plurality of columns is configured to orient a direction of an applied force through the integrally formed load cell. 17. The actuator drive unit housing of claim 15 , wherein at least one of the plurality of columns defines a recess, and wherein a strain gauge is disposed within the recess. 18. The actuator drive unit housing of claim 17 , wherein the recess is configured to route a sensor wire. 19. The actuator drive unit housing of claim 15 , further comprising: an integrally formed ring gear, wherein teeth of the integrally formed ring gear are formed in an interior surface of the actuator drive unit housing. 20. The actuator drive unit housing of claim 19 , wherein the integrally formed ring gear is proximate a second axial end of the actuator drive unit housing opposite the first axial of the actuator drive unit housing.