Electronically-controlled selectable clutch with active strut module and methods of assembly and setting a magnetic gap thereof

What is claimed: 1. A bi-directional clutch assembly, comprising: an outer housing having an outer race presenting a plurality of inner ratchet teeth; an inner race presenting a plurality of outer ratchet teeth; a passive one-way clutch including a plurality of passive struts pivotally supported for locked engagement with said inner ratchet teeth during rotation of said inner race in a first direction relative to said outer race; a selectable one-way clutch including at least one active strut selectively pivotal from an unlocked position wherein said active strut is disengaged from said outer ratchet teeth to a locked position for engaging one of said plurality of outer ratchet teeth during rotation of said inner race in a second direction opposite said first direction; a protrusion extending radially outwardly from said outer housing, said protrusion having an outer wall with an orifice extending therethrough; and a coil assembly having a bobbin, a coil wrapped about said bobbin, and an elongate core extending through a through passage of said bobbin, said elongate core being operably fixed in said orifice to be selectively magnetized by said coil to move said at least one active strut to said locked position and to be selectively demagnetized to allow said at least one active strut to move to said unlocked position. 2. The bi-directional clutch assembly of claim 1 wherein said elongate core is press fit in said orifice. 3. The bi-directional clutch assembly of claim 2 wherein said elongate core extends through said through passage of said bobbin in a clearance fit. 4. The bi-directional clutch assembly of claim 3 wherein said protrusion is fixed to said outer race as a separate piece of material. 5. The bi-directional clutch assembly of claim 2 wherein said elongate core is press fit in said through passage of said bobbin. 6. The bi-directional clutch assembly of claim 5 wherein said bobbin and said coil extend radially outwardly from said protrusion. 7. The bi-directional clutch assembly of claim 1 further comprising a nut fixed in said orifice, said nut has a threaded through passage and said core is threaded in fixed relation in said threaded through passage. 8. The bi-directional clutch assembly of claim 7 wherein said elongate core extends through said through passage of said bobbin in a clearance fit. 9. The bi-directional clutch assembly of claim 8 wherein said protrusion has a pocket facing radially inwardly from said outer wall, said bobbin and said coil being disposed in said pocket. 10. The bi-directional clutch assembly of claim 7 wherein said bobbin and said coil extend radially outwardly from said protrusion. 11. The bi-directional clutch assembly of claim 10 wherein said elongate core extends through said through passage of said bobbin in a press fit. 12. The bi-directional clutch assembly of claim 1 wherein said protrusion has an actuator pocket facing radially inwardly from said outer wall, said bobbin and said coil being disposed in said actuator pocket. 13. The bi-directional clutch assembly of claim 12 wherein said actuator pocket has an open side surface, said bobbin and said coil being axially disposed into said actuator pocket through said open side surface. 14. The bi-directional clutch assembly of claim 13 wherein said bobbin is press fit in said actuator pocket. 15. The bi-directional clutch assembly of claim 12 wherein said protrusion has a strut pocket facing radially inwardly from said outer wall, said strut pocket being separate from said actuator pocket, said active strut being disposed in said strut pocket. 16. The bi-directional clutch assembly of claim 15 further comprising an armature disposed between said active strut and said core, said armature being pivotal in response to said core being magnetized to pivot said active strut into said locked position. 17. The bi-directional clutch assembly of claim 16 wherein a preset gap is established between a free end of said core and said armature when said core is selectively demagnetized. 18. The bi-directional clutch assembly of claim 17 wherein said core is press fit in said orifice to establish said preset gap. 19. The bi-directional clutch assembly of claim 17 further comprising a nut fixed in said orifice, said core is threaded in said nut to establish said preset gap.