Unitized valve body having connection orifices

What is claimed is: 1. A unitized valve body for use in an automatic transmission, the unitized valve body comprising: a hydraulic passage; a plurality of valve bores, each valve bore having a central bore and at least one annular chamber, the central bore disposed about an axis and configured to receive a valve, the at least one annular chamber surrounding at least a portion of the central bore in a radial direction of the axis; and a plurality of connecting passages fluidly connecting the valve bores to the hydraulic passage, wherein each connecting passage is defined by a radiused geometry that fluidly connects the hydraulic passage to the at least one annular chamber of a respective valve bore such that fluid flowing in the connecting passage flows radially through an outer portion of the at least one annular chamber. 2. The unitized valve body of claim 1 , wherein the valve bores are arranged above and below the hydraulic passage in a staggered arrangement. 3. The unitized valve body of claim 1 , wherein the radiused geometry generates a predetermined pressure drop between the hydraulic passage and the at least one annular chamber of the respective valve bore. 4. The unitized valve body of claim 1 , wherein the plurality of valve bores comprise at least five (5) valve bores. 5. The unitized valve body of claim 1 , wherein the hydraulic passage is substantially linear. 6. The unitized valve body of claim 1 , wherein the valve body does not include mechanical fasteners. 7. The unitized valve body of claim 1 , wherein the valve body is formed by additive manufacturing. 8. The unitized valve body of claim 1 , wherein the hydraulic passage has a circular cross-section. 9. A unitized valve body for use in an automatic transmission, the valve assembly comprising: a plurality of valve bores, each valve bore having a central bore and at least one annular chamber, the central bore disposed about an axis and configured to receive a valve, the at least one annular chamber surrounding at least a portion of the central bore in a radial direction of the axis; and a plurality of hydraulic passages; a plurality of first connecting passages fluidly connecting a first set of the valve bores to a first hydraulic passage of the plurality of hydraulic passages, each first connecting passage is defined by a first radiused geometry that fluidly connects the first hydraulic passage to the at least one annular chamber of a respective valve bore of the first set of the valve bores such that fluid flowing in the first connecting passage flows radially through a first outer portion of the at least one annular chamber; and a plurality of second connecting passages fluidly connecting a second set of the valve bores to a second hydraulic passage of the plurality of hydraulic passages, each second connecting passage is defined by a second radiused geometry that fluidly connects the second hydraulic passage to the at least one annular chamber of a respective valve bore of the second set of the valve bores such that fluid flowing in the second connecting passage flows radially through a second outer portion of the at least one annular chamber. 10. The unitized valve body of claim 9 , wherein the valve bores are arranged above and below the first and second hydraulic passages in a staggered arrangement. 11. The unitized valve body of claim 9 , wherein the first radiused geometry generates a first predetermined pressure drop between the first hydraulic passage and the at least one annular chamber of the respective valve bore of the first set of the valve bores, and wherein the second radiused geometry generates a second predetermined pressure drop between the second hydraulic passage and the at least one annular chamber of the respective valve bore of the second set of the valve bores. 12. The unitized valve body of claim 9 , wherein the plurality of valve bores comprise at least five (5) valve bores. 13. The unitized valve body of claim 9 , wherein the first and second hydraulic passages are substantially linear. 14. The unitized valve body of claim 9 , wherein the first and second hydraulic passages extend parallel to each other. 15. The unitized valve body of claim 9 , wherein the valve body is formed by additive manufacturing. 16. The unitized valve body of claim 9 , wherein the first and second hydraulic passages are arranged in a row. 17. The unitized valve body of claim 9 , wherein the valve body does not include mechanical fasteners. 18. A unitized valve body manufactured by an additive manufacturing process, the unitized valve body comprising: a hydraulic passage; a plurality of valve bores, each valve bore having a central bore and a plurality of annular chambers, the central bore disposed about an axis and configured to receive a valve, the plurality of annular chambers surrounding at least a portion of the central bore in a radial direction of the axis; and a plurality of connecting passages fluidly connecting the valve bores to the hydraulic passage, wherein each connecting passage is defined by a radiused geometry that fluidly connects the hydraulic passage to at least one annular chamber of the plurality of annular chambers of a respective valve bore such that fluid flowing in the connecting passage flows radially through an outer portion of the at least one annular chamber. 19. The unitized valve body of claim 18 , wherein the radiused geometry generates a predetermined pressure drop between the hydraulic passage and the at least one annular chamber of the respective valve bore. 20. The unitized valve body of claim 18 , wherein the valve bores are arranged above and below the hydraulic passage in a staggered arrangement.