Integrated module carrier plate

What is claimed is: 1. A plastic carrier plate for a vehicle door, wherein the plastic carrier plate has a main surface: and a channel structure molded into the plastic carrier plate, the channel structure having a pair channels integrally molded into the main surface of the plastic carrier plate, wherein the channels provide structural reinforcement to the plastic carrier plate and the channels intersect each other and wherein the main surface extends outwardly and away from the pair of channels, wherein the plastic carrier plate further comprises a plurality of pulley supports each being integrally molded into the plastic carrier plate and located proximate to a distal end of at least one of the pair of channels and wherein the pulley supports are configured to have pulleys rotationally snap fit therein without any other securement means. 2. The plastic carrier plate as in claim 1 , wherein the plastic carrier plate further comprises a cable ride feature integrally molded into the plastic carrier plate. 3. The plastic carrier plate as in claim 2 , wherein the cable ride feature has at least a pair of retaining lips extending upwardly from a ride surface of the cable ride feature, wherein the pair of retaining lips are located in a facing spaced relationship. 4. The plastic carrier plate as in claim 1 , wherein the plastic carrier plate further comprises self locking integral features integrally molded into the plastic carrier plate to provide a means of securement for at least one guide rail to the plastic carrier plate without any other securement features other than the self locking integral features integrally molded into the plastic carrier plate. 5. The plastic carrier plate as in claim 4 , wherein the self locking integral features are also molded from plastic. 6. The plastic carrier plate as in claim 1 , wherein the plastic carrier plate further comprises self locking integral features integrally molded into the carrier plate to provide a means of securement of at least one guide rail to the carrier plate without any other securement features other than the self locking integral features integrally molded into the plastic carrier plate and wherein the carrier plate further comprises a cable ride feature integrally molded into the plastic carrier plate. 7. The plastic carrier plate as in claim 6 , wherein each of the pair of channels is defined by a pair of spaced side walls and a bottom portion, wherein the pair of spaced side walls extend from the bottom portion to define openings of each of the pair of channels and wherein a height and thickness of the pair of spaced side walls provide structural reinforcement to the carrier plate such that deformation of the plastic carrier plate due to the use of a conduitless cable system is prevented. 8. The plastic carrier plate as in claim 7 , wherein each of the sidewalls of the pair of channels extend away from both an inboard and an outboard side of a main surface of the plastic carrier plate such that the bottom portion is located away from one surface of a main surface of the plastic carrier plate and distal ends of the sidewalls defining the openings of pair of channels are located away from an opposite surface of the main surface. 9. The plastic carrier plate as in claim 8 , wherein the cable ride feature is located on top of one of the channels to provide adequate clearance between cables as they ride on a cable drum and a height of the cables with respect to a surface of the plastic carrier plate changes. 10. The plastic carrier plate as in claim 9 , wherein the self locking integral features are configured to engage a slot in the at least one guide rail and the self locking integral features are located adjacent to at least one of the plurality of pulley supports. 11. The plastic carrier plate as in claim 10 , wherein the slot is engaged by at least two self locking integral features, wherein one of the self locking features has an angled surface and a wall engaging portion. 12. The plastic carrier plate as in claim 11 , further comprising a latch retainer integrally molded with the plastic carrier plate, wherein the latch retainer secures a latch to the plastic carrier plate and the latch retainer further comprises a pair of protrusions each having a plurality of arm members extending thereform, wherein at least one of the plurality of arm members allows for vertical deflection of the latch with respect to the plastic carrier plate and another one of the plurality of arm members allows for lateral deflection of the latch with respect to the plastic carrier plate. 13. The plastic carrier plate as in claim 1 , further comprising a latch retainer integrally molded with the plastic carrier plate, wherein the latch retainer secures a latch to the plastic carrier plate and the latch retainer further comprises a pair of protrusions each having a plurality of arm members extending thereform, wherein at least one of the plurality of arm members allows for vertical deflection of the latch with respect to the plastic carrier plate and another one of the plurality of arm members allows for lateral deflection of the latch with respect to the plastic carrier plate. 14. A plastic carrier plate in combination with a conduitless window lift system, comprising: a channel structure molded into the plastic carrier plate, the channel structure having a pair channels integrally molded into the plastic carrier plate, wherein the channels provide structural reinforcement to the plastic carrier plate and the channels intersect each other; a pair of guide rails secured to the plastic carrier plate by self locking integral features integrally molded into the plastic carrier plate to provide a means of securement for the pair of guide rails to the plastic carrier plate without any other securement features other than the self locking integral features integrally molded into the plastic carrier plate; a motor for driving a cable drum rotationally received within a drum housing integrally molded with the plastic carrier plate; at least one cable secured to cable drum and rotationally received on at least one pulley rotationally snap fit into at least one of a plurality of pulley supports each being integrally molded into the plastic carrier plate proximate to a distal end of at least one of the pair of channels; and a cable ride feature integrally molded into the plastic carrier plate, wherein the cable ride feature is located on top of one of the pair of channels and has at least a pair of retaining lips extending upwardly from a ride surface of the cable ride feature, wherein the pair of retaining lips are located in a facing spaced relationship. 15. The plastic carrier plate as in claim 14 , wherein each of the pair of channels is defined by a pair of spaced side walls and a bottom portion, wherein the side walls extend from the bottom portion to define openings of each of the pair of channels and wherein the height and thickness of the side walls of the channels provide structural reinforcement to the carrier plate such that deformation of the plastic carrier plate due to the use of the conduitless window lift is prevented. 16. The plastic carrier plate as in claim 15 , wherein each of the sidewalls of the pair of channels extend away from both an inboard and an outboard side of a main surface of the plastic carrier plate such that the bottom portion is located away from one surface of a main surface of the plastic carrier plate and distal ends of the sidewalls defining the openings of pair of channels are located away from an opposite surface of the main surface.