Port plate assembly for hydraulic unit

What is claimed is: 1. A port plate assembly of a hydraulic unit, the port plate assembly comprising: a port plate comprising: a fixed-speed interface side having a fixed-speed interface surface; a variable-speed interface side having a variable-speed interface surface; a plurality of kidney-shaped apertures defined at a kidney pitch diameter about a central bore of the port plate between the fixed-speed interface surface and the variable-speed interface surface; and a control cylinder interface formed at a control cylinder radial offset from a central axis of the central bore, wherein a ratio of the control cylinder radial offset to the kidney pitch diameter is between 1.629 and 1.639, the control cylinder interface comprises an inner cylinder interface diameter and an outer cylinder interface diameter, and a ratio of the outer cylinder interface diameter to the inner cylinder interface diameter is between 1.156 and 1.176; and a journal bearing installed in the central bore of the port plate, the journal bearing providing an interface for a fixed-speed shaft and a variable-speed shaft of the hydraulic unit. 2. The port plate assembly of claim 1 , wherein the fixed-speed interface surface and the variable-speed interface surface have an outer surface diameter, and a ratio of the outer surface diameter to the kidney pitch diameter is between 1.437 and 1.440. 3. The port plate assembly of claim 2 , wherein the central bore has a bore diameter and a ratio of the outer surface diameter to the bore diameter is between 1.952 and 1.956. 4. The port plate assembly of claim 1 , wherein the port plate further comprises a first oil transfer port having a first oil transfer port radial offset from the central axis of the central bore, wherein a ratio of the control cylinder radial offset to the first oil transfer port radial offset is between 1.188 and 1.198. 5. The port plate assembly of claim 4 , wherein the port plate further comprises a first oil channel defined between a first kidney-shaped aperture of the kidney-shaped apertures and a first seal port end, the first oil channel in fluid communication with the first oil transfer port, the first oil channel having a first channel length, wherein a ratio of the control cylinder radial offset to the first channel length is between 1.311 and 1.324. 6. The port plate assembly of claim 5 , wherein the port plate further comprises a second oil transfer port having a second oil transfer port radial offset from the central axis of the central bore, wherein a ratio of the control cylinder radial offset to the second oil transfer port radial offset is between 1.382 and 1.396. 7. The port plate assembly of claim 6 , wherein the port plate further comprises a second oil channel defined between a second kidney-shaped aperture of the kidney-shaped apertures and a second seal port end, the second oil channel in fluid communication with the second oil transfer port, the second oil channel having a second channel length, wherein a ratio of the control cylinder radial offset to the second channel length is between 1.594 and 1.632. 8. The port plate assembly of claim 7 , further comprising a first sealing plug installed at the first seal port end and a second sealing plug installed at the second seal port end. 9. The port plate assembly of claim 6 , wherein the first oil transfer port and the second oil transfer port have a transfer port diameter, the kidney-shaped apertures have an aperture width, and a ratio of the transfer port diameter to the aperture width is between 1.992 and 2.047. 10. A method of installing a port plate assembly in a hydraulic unit, the method comprising: arranging a first cylinder block assembly of a variable displacement hydraulic pump proximate a variable-speed interface surface of a variable-speed interface side of a port plate of the port plate assembly; interfacing a variable-speed shaft to a journal bearing in a central bore of the port plate; arranging a second cylinder block assembly of a fixed displacement hydraulic motor proximate a fixed-speed interface surface of a fixed-speed interface side of the port plate, wherein a plurality of kidney-shaped apertures are defined at a kidney pitch diameter about the central bore between the fixed-speed interface surface and the variable-speed interface surface; interfacing a fixed-speed shaft to the journal bearing; and coupling a control cylinder to a control cylinder interface formed at a control cylinder radial offset from a central axis of the central bore, wherein a ratio of the control cylinder radial offset to the kidney pitch diameter is between 1.629 and 1.639, the control cylinder interface comprises an inner cylinder interface diameter and an outer cylinder interface diameter, and a ratio of the outer cylinder interface diameter to the inner cylinder interface diameter is between 1.156 and 1.176, wherein the control cylinder applies pressure to hydraulic fluid in the port plate assembly to control pressure variations across a range of speeds of the variable-speed shaft. 11. The method of claim 10 , wherein the fixed-speed interface surface and the variable-speed interface surface have an outer surface diameter, the central bore has a bore diameter, a ratio of the outer surface diameter to the kidney pitch diameter is between 1.437 and 1.440, and a ratio of the outer surface diameter to the bore diameter is between 1.952 and 1.956. 12. The method of claim 10 , wherein the port plate further comprises a first oil transfer port having a first oil transfer port radial offset from the central axis of the central bore, a first oil channel is defined between a first kidney-shaped aperture of the kidney-shaped apertures and a first seal port end, the first oil channel is in fluid communication with the first oil transfer port, the first oil channel having a first channel length, a ratio of the control cylinder radial offset to the first oil transfer port radial offset is between 1.188 and 1.198, and a ratio of the control cylinder radial offset to the first channel length is between 1.311 and 1.324. 13. The method of claim 12 , wherein the port plate further comprises a second oil transfer port having a second oil transfer port radial offset from the central axis of the central bore, a second oil channel is defined between a second kidney-shaped aperture of the kidney-shaped apertures and a second seal port end, the second oil channel is in fluid communication with the second oil transfer port, the second oil channel having a second channel length, a ratio of the control cylinder radial offset to the second oil transfer port radial offset is between 1.382 and 1.396, and a ratio of the control cylinder radial offset to the second channel length is between 1.594 and 1.632. 14. The method of claim 13 , further comprising: installing a first sealing plug at the first seal port end; and installing a second sealing plug at the second seal port end.