Modular electrically actuated camshaft phaser

We claim: 1. A camshaft phaser for controllably varying the phase relationship between a crankshaft and a camshaft in an internal combustion engine, said camshaft phaser comprising: a housing connectable to said crankshaft and having a housing bore extending therethrough along an axis; a back cover attached to one axial end of said housing; a front cover attached to another axial end of said housing; wherein said housing is clamped between said back cover and said front cover; an output hub connectable to said camshaft and disposed coaxially within said housing and captured axially between said back cover and said front cover; and a harmonic gear drive unit disposed operationally between said housing and said output hub, said harmonic gear drive unit being connected to a rotational actuator which imparts rotation on said harmonic gear drive unit such that rotation of said harmonic gear drive unit by said rotational actuator causes relative rotation between said housing and said output hub; a back sealing cover fixed to said one axial end of said housing; and a front sealing cover fixed to said another axial end of said housing; wherein said back sealing cover and said front sealing cover are configured to mate with dynamic seals of said internal combustion engine. 2. A camshaft phaser as in claim 1 wherein said back cover is located axially between said back sealing cover and said housing. 3. A camshaft phaser as in claim 2 wherein said front cover is located axially between said front sealing cover and said housing. 4. A camshaft phaser as in claim 1 wherein: said back sealing cover is sealingly received within a back counter bore of said housing, said back counter bore being coaxial with said housing bore; and said front sealing cover is sealingly received within a front counter bore of said housing, said front counter bore being coaxial with said housing bore. 5. A camshaft phaser as in claim 1 wherein said back sealing cover includes a sealing body that is annular in shape, thereby defining a sealing surface on the outer circumference of said sealing body and also defining a central passage extending coaxially through said back sealing cover. 6. A camshaft phaser as in claim 5 wherein said sealing body extends axially away from an annular plate of said back sealing cover in a direction that is away from said back cover. 7. A camshaft phaser as in claim 1 wherein said front sealing cover includes a sealing body that is annular in shape, thereby defining a sealing surface on the outer circumference of said sealing body and also defining a central passage extending coaxially through said back sealing cover. 8. A camshaft phaser as in claim 7 wherein said sealing body extends axially away from an annular plate of said front sealing cover in a direction that is away from said front cover. 9. A camshaft phaser as in claim 1 wherein: said back sealing cover is sealingly received within a back annular recess of said housing, said back annular recess being coaxial with said housing bore; and said front sealing cover is sealingly received within a front annular recess of said housing, said front annular recess being coaxial with said housing bore. 10. A camshaft phaser as in claim 9 wherein: a portion of said back annular recess radially surrounds said housing bore; and a portion of said front annular recess radially surrounds said housing bore. 11. A camshaft phaser for controllably varying the phase relationship between a crankshaft and a camshaft in an internal combustion engine, said camshaft phaser comprising: a housing connectable to said crankshaft and having a housing bore extending therethrough along an axis; a back cover attached to one axial end of said housing; a front cover attached to another axial end of said housing; an output hub connectable to said camshaft and disposed coaxially within said housing and captured axially between said back cover and said front cover; and a harmonic gear drive unit disposed operationally between said housing and said output hub, said harmonic gear drive unit being connected to a rotational actuator which imparts rotation on said harmonic gear drive unit such that rotation of said harmonic gear drive unit by said rotational actuator causes relative rotation between said housing and said output hub; a back sealing cover fixed to said one axial end of said housing; and a front sealing cover fixed to said another axial end of said housing; wherein said back sealing cover and said front sealing cover are configured to mate with dynamic seals of said internal combustion engine.