Driven accessory

What is claimed is: 1. A driven accessory comprising: an input member having a hub, an outer rim, and a radially extending web that couples the hub to the outer rim, the input member being rotatable about an axis; a cover coupled to the input member for common rotation about the axis, the cover cooperating with the input member to define a clutch cavity; an output member that is rotatable about the axis independently of the input member; a clutch received in the clutch cavity, the clutch being operable in a plurality of operational states including a first operational state, in which the output member is decoupled from the input member, and a second operational state in which the output member is coupled to the input member for common rotation; a clutch actuator that is selectively operable to change the operational state in which the clutch operates, the clutch actuator having an electromagnetic coil that is disposed outside the clutch cavity, wherein the hub is disposed along the axis between the clutch and the electromagnetic coil; a housing; and first and second bearings that are mounted coaxially to the housing, the first bearing supporting the input member for rotation relative to the housing, the second bearing supporting the output member for rotation relative to the housing. 2. The driven accessory of claim 1 , wherein the clutch is a friction clutch. 3. The driven accessory of claim 2 , wherein the friction clutch comprises a friction plate that is movable along the axis between a first plate position and a second plate position, and wherein the driven accessory further comprises a return spring that is configured to bias the friction plate toward one of the first and second plate positions. 4. The driven accessory of claim 3 , wherein the return spring biases the friction plate away from the cover. 5. The driven accessory of claim 1 , wherein the electromagnetic coil is configured to produce a magnetic field and wherein the hub of the input member defines a plurality of apertures that are configured to permit transmission of the magnetic field there through. 6. The driven accessory of claim 5 , wherein a magnetically non-susceptible material closes the apertures in the hub, the magnetically non-susceptible material being configured to close the apertures but to permit the magnetic field to be transmitted there through. 7. The driven accessory of claim 1 , wherein the clutch actuator comprises an armature that is disposed in the clutch cavity. 8. The driven accessory of claim 6 , wherein the armature is non-rotatably coupled to the input member. 9. The driven accessory of claim 8 , further comprising a spring that biases the armature along the axis relative to the hub of the input member. 10. The driven accessory of claim 9 , wherein the spring comprises a plurality of helical coil springs that are disposed about a circumference of the armature. 11. The driven accessory of claim 10 , wherein each of the helical coil springs is received into a pocket formed in the armature. 12. The driven accessory of claim 9 , wherein the spring biases the armature away from the hub. 13. The driven accessory of claim 1 , wherein the electromagnetic coil is mounted to the housing. 14. The driven accessory of claim 1 , further comprising a work element coupled to the output member. 15. The driven accessory of claim 14 , wherein the work element is a fan or an impeller. 16. The driven accessory of claim 1 , wherein the input member is a pulley.