Headliner-mounted telematics control unit package

What is claimed is: 1. A roof structure for a motor vehicle, comprising: an outer sheet of roof material; a headliner positioned below the outer sheet of roof material, wherein the headliner includes an opening; an insulated space formed, by a layer of insulating material disposed below the outer sheet of roof material and insulating material extending around the insulated space, wherein the insulated space has a downwardly-facing opening that is aligned with the opening in the headliner; a telematics control unit (TCU) disposed in the insulated space below the layer of insulating material, wherein the TCU is configured to communicate with a wireless network and provide Wi-Fi access within a passenger space of the vehicle; and an electrically non-conductive grille extending across the opening in the headliner below the TCU, wherein the grille has at least one opening therethrough to permit airflow between the insulated space and a passenger space below the headliner, wherein the grille comprises a heat-conductive material, and wherein the TCU is mounted to the grille whereby heat from the TCU is transferred directly into the grille by conduction. 2. The roof structure of claim 1 , wherein: the headliner includes a downwardly facing planar surface extending around the opening of the headliner, and wherein no portion of the TCU projects below the planar surface of the headliner that extends around the opening. 3. The roof structure of claim 2 , wherein: the grille is made of a polymer composite material including a thermoplastic polymer matrix having thermally conductive particles disposed therein. 4. The roof structure of claim 3 , wherein: the thermally conductive particles comprise an electrically non-conductive material. 5. The roof structure of claim 4 , wherein: the thermally conductive particles comprise one or more materials selected from the group consisting of boron nitride flakes, boron nitride platelets, and boron nitride agglomerates. 6. The roof structure of claim 5 , wherein: the thermally conductive particles comprise boron nitride granulated platelets and have an average diameter of about 200 μm. 7. The roof structure of claim 6 , wherein: the boron nitride granulated platelets comprise about 25-35 percent of the polymer composite material by volume; and the thermoplastic polymer comprises polybutylene terephthalate (PBT). 8. The roof structure of claim 7 , wherein: the polymer composite material further comprises a polypropylene in the form of an adhesive tie layer to increase bond strength between the polymer matrix and the boron nitride granulated platelets. 9. The roof structure of claim 2 , wherein: the heat-conductive material of the grille has a thermal conductivity of at least about 1.25 W(m K). 10. The roof structure of claim 1 , wherein: the TCU is spaced-apart from the layer of insulating material to define a gap configured to permit airflow through the gap above the TCU to provide convective heat transfer. 11. A roof structure for a motor vehicle, comprising: an outer sheet of roof material; a headliner positioned below the outer sheet of roof material, wherein the headliner includes an opening; an insulated space formed by a layer of insulating material disposed below the outer sheet of roof material and insulating material extending around the insulated space, wherein the insulated space has a downwardly-facing opening that is aligned with the opening in the headliner; a telematics control unit (TCU) disposed in the insulated space, wherein the TCU is configured to communicate with a wireless network and provide Wi-Fi access within a passenger space of the vehicle the TCU is spaced-apart from the layer of insulating material to define a gap configured to permit airflow through the gap to provide convective heat transfer; an electrically non-conductive grille extending across the opening in the headliner below the TCU, wherein the grille has at least one opening therethrough to permit airflow between the insulated space and a passenger space below the headliner; and wherein the grille comprises a heat-conductive polymer composite material including a polymer matrix having thermally conductive particles disposed therein; and the TCU is mounted to the grille whereby heat from the TCU is transferred directly into the grille by conduction. 12. The roof structure of claim 11 , wherein: the grille includes a central area having at least one opening therethrough extending between upper and lower sides of the central area, the grille further including at least one integrally-formed protrusion comprising a polymer composite material extending upwardly from the upper side of the grille and contacting an upright side surface of the TCU to thereby transfer heat from the upright side surface directly into the protrusion; and wherein the TCU is positioned directly above the central area of the grille. 13. The roof structure of claim 11 , wherein: the grille comprises a central portion of a TCU housing, wherein the TCU housing further includes sidewalls extending upwardly around the central portion, wherein the sidewalls comprise thermoplastic polymer material that is integrally formed with the polymer matrix material using a two-shot injection molding process, and wherein the thermoplastic polymer material of the sidewalls is substantially free of thermally conductive particles. 14. The roof structure of claim 1 , wherein: the grille includes a peripheral flange that overlaps the headliner around the opening through the headliner; and including: a headliner reinforcement structure secured to the headliner around the opening through the headliner, the headliner reinforcement structure including an upper web disposed between the outer sheet of roof material and the layer of insulating material, and transverse sidewalls extending from a periphery of the upper web to an upper side of the headliner. 15. The roof structure of claim 1 , including: at least one antenna mounted to a rear portion the roof structure; a cable operably connecting the TCU to the antenna, wherein a portion of the cable extends rearwardly to the at least one antenna through a space of the roof structure between the outer sheet of roof material and the headliner; and wherein the TCU transmits wireless RF signals through the grille into the passenger space of the vehicle. 16. The roof structure of claim 1 , wherein: the layer of insulating material and the insulating material extending around the insulated space comprise foam, and wherein the insulated space is substantially flat and defines a perimeter, and wherein the insulating material extending around the insulated space comprises an upright sidewall structure having a ring shape in plan view, wherein an upper portion of the upright sidewall structure is joined to the perimeter of the layer of insulating material. 17. A motor vehicle comprising: a roof structure having an outer layer and a headliner below the outer layer; a grille; a TCU mounted to the grille directly above an opening in the headliner; a layer of insulating material between the TCU and the outer layer to block transmission of heat from the outer layer to the TCU, wherein the layer of insulating material is spaced apart from the TCU to form a gap to permit airflow through the gap; and wherein the grille includes a horizontal lower portion extending across the opening in the headliner below the TCU, the horizontal lower portion including a plurality of openings therethrough directly below the TCU, wherein the grille is mad