Elastomer series coupling damper for supercharger

What is claimed is: 1. A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger, the coupling assembly comprising: a first hub having a first plurality of openings therein, the first hub mounted for concurrent rotation with the input shaft; a first plurality of coupling pins extending from the first plurality of openings; a second hub having a second plurality of openings therein, the second hub mounted for concurrent rotation with the rotor shaft; a second plurality of coupling pins extending from the second plurality of openings; and a central hub disposed intermediate the first and second hubs, the central hub having an elastomeric body that defines a series of passages therethrough, wherein the passages taper inwardly from a first end providing incremental dampening against the first and second plurality of pins, the first plurality of pins and the second plurality of pins are alternately received by the series of passages of the elastomeric body. 2. The coupling assembly of claim 1 wherein the series of passages each define the first end having an oblong cross-section and an opposite end defining an oblong cross-section, wherein the passages taper inwardly toward a central waist having a circular cross-section. 3. The coupling assembly of claim 2 wherein the oblong cross-sections have a length of substantially 9.6 mm and a radius of substantially 3.5 mm. 4. The coupling assembly of claim 1 wherein the central hub further comprises an inner band and an outer band. 5. The coupling assembly of claim 1 wherein the first and second plurality of coupling pins provide substantially 10 degrees of travel in a first rotational direction relative to the central hub and substantially 10 degrees of travel in a second rotational direction relative to the central hub, the first and second rotational directions being opposite. 6. The coupling assembly of claim 1 wherein: the first plurality of coupling pins are alternately received by the first plurality of openings such that every other opening of the first plurality of openings receives a respective coupling pin of the first plurality of coupling pins; the second plurality of coupling pins are alternately received by the second plurality of openings such that every other opening of the second plurality of openings receives a respective coupling pin of the second plurality of coupling pins; a coupling pin of the first plurality of coupling pins is axially aligned with an unoccupied opening of the second plurality of openings; and a coupling pin of the second plurality of coupling pins is axially aligned with an unoccupied opening of the first plurality of openings. 7. The coupling assembly of claim 1 wherein the series of passages each define a first end having an oblong cross-section and a second end defining an oblong cross-section, wherein the passages taper inwardly (i) from the first end to a central waist; and (ii) from the second end to the central waist. 8. A coupling assembly arranged between an input shaft and a rotor shaft of a supercharger, the coupling assembly comprising: a first hub having a first plurality of openings therein, the first hub mounted for concurrent rotation with the input shaft; a first plurality of coupling pins extending from the first plurality of openings; a second hub having a second plurality of openings therein, the second hub mounted for concurrent rotation with the rotor shaft; a second plurality of coupling pins extending from the second plurality of openings; and a central hub disposed intermediate the first and second hubs, the central hub having an elastomeric body that defines a series of passages therethrough, wherein the series of passages each define a first end having an oblong cross-section and an opposite end defining an oblong cross-section, wherein the passages taper inwardly toward a central waist having a circular cross-section providing incremental dampening against the first and second plurality of pins. 9. The coupling assembly of claim 8 wherein the central hub further comprises an inner band and an outer band. 10. The coupling assembly of claim 8 wherein the first and second plurality of coupling pins provide substantially 10 degrees of travel in a first rotational direction relative to the central hub and substantially 10 degrees of travel in a second rotational direction relative to the central hub, the first and second rotational directions being opposite. 11. The coupling assembly of claim 8 wherein: the first plurality of coupling pins are alternately received by the first plurality of openings such that every other opening of the first plurality of openings receives a respective coupling pin of the first plurality of coupling pins; the second plurality of coupling pins are alternately received by the second plurality of openings such that every other opening of the second plurality of openings receives a respective coupling pin of the second plurality of coupling pins; a coupling pin of the first plurality of coupling pins is axially aligned with an unoccupied opening of the second plurality of openings; and a coupling pin of the second plurality of coupling pins is axially aligned with an unoccupied opening of the first plurality of openings.