Inboard spring arrangement for a clutch actuated differential

What is claimed is: 1. A differential comprising: a differential case adapted to be rotated about an axis of rotation; a cross-shaft operatively coupled to the differential case such that the cross-shaft and the differential case rotate together about the axis of rotation; left and right clutch actuators having opposing inboard sides between which the cross-shaft is positioned; left and right axle hubs positioned on opposite sides of the cross-shaft; a left clutch pack that prevents relative rotation between the left clutch actuator and the left axle hub about the axis of rotation when a left clutch engagement pressure is applied to the left clutch pack; a right clutch pack that prevents relative rotation between the right clutch actuator and the right axle hub about the axis of rotation when a right clutch engagement pressure is applied to the right clutch pack; a rotation limiting arrangement at the inboard sides of the left and right clutch actuators for limiting relative rotation between the left and right clutch actuators about the axis of rotation, the rotation limiting arrangement including a limiter captured between first and second stop surfaces which cooperate to define a limited range of relative rotational movement between the left and right clutch actuators, wherein the limiter has a first location that makes line contact with the first stop surface to stop relative rotation in a first rotational direction between the left and right clutch actuators, and wherein the limiter has a second location that makes line contact with the second stop surface to stop relative rotation in a second rotational direction between the left and right clutch actuators, the first rotational direction being opposite from the second rotational direction; and wherein contact between the cross-shaft and a ramp surface at the inboard side of the left clutch actuator causes the left clutch engagement pressure to be applied to the left clutch pack, and wherein contact between the cross-shaft and a ramp surface at the inboard side of the right clutch actuator causes the right clutch engagement pressure to be applied to the right clutch pack. 2. The differential of claim 1 , wherein the limiter is a post including a curved side surface, wherein a first portion of the curved side surface defines the first location, and wherein a second portion of the curved side surface defines the second location. 3. The differential of claim 2 , wherein the first and second stop surfaces are planar. 4. The differential of claim 1 , wherein the limiter is centered between the first and second stop surfaces when the cross-shaft concurrently contacts the ramp surfaces of both the left and right clutch actuators. 5. The differential of claim 1 , wherein the limiter is carried with the left clutch actuator and the first and second stop surfaces are carried with the right clutch actuator. 6. The differential of claim 1 , wherein the limiter is carried with the right clutch actuator and the first and second stop surfaces are carried with the left clutch actuator. 7. The differential of claim 1 , wherein the limiter is carried with one of the left and right clutch actuators, wherein the first and second stop surfaces are carried with the other of the left and right clutch actuators. 8. The differential of claim 7 , wherein the inboard sides of the left and right clutch actuators define pockets that cooperate to define a shaft receptacle that receives the cross-shaft, and wherein each pocket includes first and second ramp surfaces that are angled relative to one another so as to converge toward a neutral position positioned between the first and second ramp surfaces, wherein the left engagement pressure is not applied to the left clutch pack when the cross-shaft aligns with the neutral position of the left clutch actuator, and wherein the right engagement pressure is not applied to the right clutch pack when the cross-shaft aligns with the neutral position of the right clutch actuator. 9. The differential of claim 8 , wherein the limiter contacts the first stop surface when the cross-shaft is in engagement with the first ramp surface of the left clutch actuator and the cross-shaft is in alignment with the neutral position of the right clutch actuator, and wherein the limiter contacts the second stop surface when the cross-shaft is in engagement with the first ramp surface of the right clutch actuator and the cross-shaft is in alignment with the neutral position of the left clutch actuator. 10. A differential comprising: a differential case adapted to be rotated about an axis of rotation; a cross-shaft operatively coupled to the differential case such that the cross-shaft and the differential case rotate together about the axis of rotation; left and right clutch actuators having opposing inboard sides between which the cross-shaft is positioned, the inboard sides of the left and right clutch actuators defining pockets that cooperate to define a shaft receptacle that receives the cross-shaft, and each pocket including first and second ramp surfaces that are angled relative to one another so as to converge toward a neutral position positioned between the first and second ramp surfaces; left and right axle hubs positioned on opposite sides of the cross-shaft; a left clutch pack that prevents relative rotation between the left clutch actuator and the left axle hub about the axis of rotation when a left clutch engagement pressure is applied to the left clutch pack; a right clutch pack that prevents relative rotation between the right clutch actuator and the right axle hub about the axis of rotation when a right clutch engagement pressure is applied to the right clutch pack; a rotation limiting arrangement at the inboard sides of the left and right clutch actuators for limiting relative rotation between the left and right clutch actuators about the axis of rotation, the rotation limiting arrangement including a post and a post receptacle provided at the inboard side of each of the left and right clutch actuators, the post receptacles each being located between opposing first and second stop surfaces, the post of the left clutch actuator being received within the post receptacle of the right clutch actuator and the post of the right clutch actuator being received within the post receptacle of the left clutch actuator, wherein the posts have first curved locations that make line contact with the first stop surfaces to stop relative rotation in a first rotational direction between the left and right clutch actuators, and wherein the posts have second curved locations that makes line contact with the second stop surfaces to stop relative rotation in a second rotational direction between the left and right clutch actuators, the first rotational direction being opposite from the second rotational direction; and wherein contact between the cross-shaft and the first or second ramp surface at the inboard side of the left clutch actuator causes the left clutch engagement pressure to be applied to the left clutch pack, wherein contact between the cross-shaft and the first or second ramp surface at the inboard side of the right clutch actuator causes the right clutch engagement pressure to be applied to the right clutch pack, wherein the left engagement pressure is not applied to the left clutch pack when the cross-shaft aligns with the neutral position of the left clutch actuator, and wherein the right engagement pressure is not applied to the right clutch pack when the cross-shaft aligns with the neutral position of the right clutch actuator. 11. The differential of claim 10 , wherein the posts include cylindrical side surfaces, wherein first portions of t