Gerotor assembly having an oil groove

What is claimed is: 1. A gerotor assembly comprising: a crankshaft; an inner drive gear mounted on the crankshaft; an outer driven gear defining a plurality of passageways and operatively configured to engage with the inner drive gear, the outer driven gear and the inner drive gear further defining at least one compressible cavity therebetween; and a housing defining an oil groove between the housing and outer driven gear, the oil groove being in fluid communication with the at least one compressible cavity via the plurality of passageways, the oil groove having a depth of approximately 2.0 mm; wherein the plurality of passageways begin at an inner side of the outer driven gear and terminate in a groove defined in an exterior side of the outer driven gear. 2. The gerotor assembly of claim 1 wherein the oil groove is adjacent to the exterior side of the outer driven gear. 3. The gerotor assembly of claim 1 wherein the plurality of passageways are radially aligned. 4. The gerotor assembly of claim 3 wherein the plurality of passageways each begin with an aperture in an inner side of the outer driven gear and terminate in a corresponding aperture defined in the exterior side of the outer driven gear. 5. The gerotor assembly of claim 3 wherein the plurality of passageways are operatively configured to provide increasing fluid communication between the at least one compressible cavity and an exterior surface of the outer driven gear as the compressible cavity decreases in size. 6. The gerotor assembly of claim 1 wherein the oil groove is adapted to distribute a hydrodynamic film between the outer driven gear and the housing. 7. The gerotor assembly of claim 1 wherein the gerotor assembly further includes a high pressure oil pump in fluid communication with the oil groove via a high pressure oil passage. 8. A gerotor assembly comprising: a crankshaft; an inner drive gear mounted on the crankshaft; an outer driven gear defining a plurality of passageways and operatively configured to engage with the inner drive gear, the outer driven gear and the inner drive gear further defining at least one compressible cavity therebetween; and a housing defining an oil groove on an interior surface of the housing, the oil groove being in fluid communication with the at least one compressible cavity via the plurality of passageways, the oil groove having a depth of approximately 2.0 mm; wherein the plurality of passageways begin at an inner side of the outer driven gear and terminate in a groove defined in an exterior side of the outer driven gear. 9. The gerotor assembly of claim 8 wherein the oil groove is adjacent to the exterior side of the outer driven gear. 10. The gerotor assembly of claim 8 wherein the plurality of passageways are radially aligned. 11. The gerotor assembly of claim 10 wherein the plurality of passageways each begin with an aperture in an inner side of the outer driven gear and terminate in a corresponding aperture defined in the exterior side of the outer driven gear. 12. The gerotor assembly of claim 10 wherein the plurality of passageways are operatively configured to provide increasing fluid communication between the at least one compressible cavity and an exterior surface of the outer driven gear as the at least one compressible cavity decreases in size. 13. The gerotor assembly of claim 8 wherein the oil groove is adapted to distribute a hydrodynamic film between the outer driven gear and the housing. 14. The gerotor assembly of claim 8 wherein the gerotor assembly further includes a high pressure oil pump in fluid communication with the oil groove via a high pressure oil passage.