Variable coaxial shaft for hydraulic unit

What is claimed is: 1 . A variable coaxial shaft for a hydraulic unit, the variable coaxial shaft comprising: a shaft body having a variable input shaft interface to drive rotation of a variable input shaft of the hydraulic unit; and a differential assembly interface having a first sealing interface, a second sealing interface, and one or more lubrication ports between the first sealing interface and the second sealing interface, the differential assembly interface configured to be driven by a differential assembly, and the one or more lubrication ports providing a lubrication path to the differential assembly, wherein a shaft length is defined between a first end of the variable input shaft interface and a second end of the differential assembly interface, and a ratio of the shaft length to a shaft diameter of the shaft body is between 18.65 and 19.12. 2 . The variable coaxial shaft of claim 1 , wherein the second sealing interface is proximate the second end, a differential assembly interface length is defined between the first sealing interface and the second end, and a ratio of the shaft length to the differential assembly interface length is between 5.89 and 6.0. 3 . The variable coaxial shaft of claim 2 , wherein the one or more lubrication ports are defined at a lubrication port offset with respect to the second end, and a ratio of the differential assembly interface length to the lubrication port offset is between 1.72 and 1.81. 4 . The variable coaxial shaft of claim 3 , wherein the differential assembly interface further comprises an inner bore as part of the lubrication path, the inner bore having a bore depth defined with respect to the second end, and a ratio of the differential assembly interface length to the bore depth is between 1.61 and 1.68. 5 . The variable coaxial shaft of claim 4 , wherein the inner bore comprises a first inner bore portion proximate the one or more lubrication ports, a second inner bore portion proximate the second end, and an intermediate inner bore portion between the first inner bore portion and the second inner bore portion, and a ratio of the shaft diameter to a diameter of the first inner bore portion is between 1.61 and 1.80. 6 . The variable coaxial shaft of claim 5 , wherein a ratio of a diameter of the second inner bore portion to the diameter of the first inner bore portion is between 1.88 and 2.13, and a ratio of a diameter of the intermediate inner bore portion to the diameter of the first inner bore portion is between 1.40 and 1.61. 7 . The variable coaxial shaft of claim 1 , wherein the first sealing interface has a first inner sealing diameter and a first outer sealing diameter, the second sealing interface has a second inner sealing diameter and a second outer sealing diameter, a ratio of the second outer sealing diameter to the first outer sealing diameter is between 1.55 and 1.57. 8 . The variable coaxial shaft of claim 7 , wherein a ratio of the second inner sealing diameter to the first inner sealing diameter is between 1.64 and 1.67. 9 . The variable coaxial shaft of claim 7 , wherein a ratio of the second outer sealing diameter to the shaft diameter is between 2.23 and 2.30. 10 . The variable coaxial shaft of claim 7 , wherein a ratio of the first outer sealing diameter to the shaft diameter is between 1.43 and 1.48. 11 . A method of installing a variable coaxial shaft in an integrated drive generator, the method comprising: coupling a variable input shaft interface of a shaft body of the variable coaxial shaft with a variable input shaft of a hydraulic unit of the integrated drive generator; inserting a differential assembly interface of the variable coaxial shaft coaxially within a differential assembly of the integrated drive generator; and aligning one or more lubrication ports of the differential assembly interface to provide a lubrication path to the differential assembly, wherein the differential assembly interface comprises a first sealing interface and a second sealing interface, the one or more lubrication ports formed between the first sealing interface and the second sealing interface, a shaft length is defined between a first end of the variable input shaft interface and a second end of the differential assembly interface, and a ratio of the shaft length to a shaft diameter of the shaft body is between 18.65 and 19.12. 12 . The method of claim 11 , wherein the second sealing interface is proximate the second end, a differential assembly interface length is defined between the first sealing interface and the second end, the one or more lubrication ports are defined at a lubrication port offset with respect to the second end, a ratio of the shaft length to the differential assembly interface length is between 5.89 and 6.0, and a ratio of the differential assembly interface length to the lubrication port offset is between 1.72 and 1.81. 13 . The method of claim 12 , wherein the differential assembly interface further comprises an inner bore as part of the lubrication path, the inner bore having a bore depth defined with respect to the second end, the inner bore comprises a first inner bore portion proximate the one or more lubrication ports, a second inner bore portion proximate the second end, and an intermediate inner bore portion between the first inner bore portion and the second inner bore portion, a ratio of the differential assembly interface length to the bore depth is between 1.61 and 1.68, a ratio of the shaft diameter to a diameter of the first inner bore portion is between 1.61 and 1.80, a ratio of a diameter of the second inner bore portion to the diameter of the first inner bore portion is between 1.88 and 2.13, and a ratio of a diameter of the intermediate inner bore portion to the diameter of the first inner bore portion is between 1.40 and 1.61. 14 . The method of claim 11 , wherein the first sealing interface has a first inner sealing diameter and a first outer sealing diameter, the second sealing interface has a second inner sealing diameter and a second outer sealing diameter, a ratio of the second outer sealing diameter to the first outer sealing diameter is between 1.55 and 1.57. 15 . The method of claim 14 , wherein a ratio of the second inner sealing diameter to the first inner sealing diameter is between 1.64 and 1.67, a ratio of the second outer sealing diameter to the shaft diameter is between 2.23 and 2.30, and a ratio of the first outer sealing diameter to the shaft diameter is between 1.43 and 1.48.