Electromagnetic shielded battery tray with metal coated fiber stitched walls and corresponding manufacturing processes

What is claimed is: 1. A battery tray comprising: a first component comprising a first set of walls, wherein the first set of walls comprises a first stitched fabric, and wherein the first stitched fabric comprises a first plurality of stacked stitched fabric layers and first metal coated fibers; and a second component comprising a second set of walls, wherein the second set of walls comprises a second stitched fabric, wherein the second stitched fabric comprises a second plurality of stacked stitched fabric layers and second metal coated fibers, wherein the second component is attached to the first component to form the battery tray, which is configured to hold a battery pack of a vehicle, and wherein the first metal coated fibers and the second metal coated fibers provide an electromagnetic shield surrounding the battery pack, each of some of the first metal coated fibers extends parallel and perpendicular to the first plurality of stacked stitched fabric layers and through multiple first apertures in each of the first plurality of stacked stitched fabric layers, and sets of the first apertures extend parallel to a stacked direction of the first plurality of stacked stitched fabric layers, where each set of the first apertures includes aligned apertures respectively of the first plurality of stacked stitched fabric layers. 2. The battery tray of claim 1 , wherein: the first stitched fabric comprises the first plurality of stacked stitched fabric layers; and the second stitched fabric comprises the second plurality of stacked stitched fabric layers. 3. The battery tray of claim 2 , wherein: each of the first plurality of stacked stitched fabric layers is a separate distinct fabric layer, comprises a respective set of woven fibers, and do not include the some of the first metal coated fibers; and each of the second plurality of stacked stitched fabric layers is a separate distinct fabric layer comprises a respective set of woven fibers, and does not include some of the second metal coated fibers. 4. The battery tray of claim 1 , wherein: the first stitched fabric is implemented as a first preform; and the second stitched fabric is implemented as a second preform. 5. The battery tray of claim 1 , wherein; the second stitched fabric includes second apertures with some of the second metal coated fibers extending through the second apertures; each of the first apertures and the second apertures has a cross-sectional dimension greater than λ/50 and less than λ/20 such that the first stitched fabric and the second stitched fabric reflect electromagnetic waves experienced by the battery tray; and the cross-sectional dimensions are measured perpendicular to at least one of (i) respective longitudinal lengths of the first apertures and the second apertures, or (ii) respective paths of the first apertures and the second apertures. 6. The battery tray of claim 1 , wherein each of the first metal coated fibers and the second metal coated fibers comprises an inner non-metallic fibrous core and a metallic coating disposed over the inner non-metallic fibrous core. 7. The battery tray of claim 1 , wherein the first metal coated fibers and the second metal coated fibers are connected to a reference ground. 8. The battery tray of claim 1 , wherein the first stitched fabric and the second stitched fabric collectively comprise: 25%-59% reinforcement fibers by volume; 40%-70% polymeric resin matrix by volume; and 1-5% metal coated fibers by volume including the first metal coated fibers and the second metal coated fibers. 9. The battery tray of claim 1 , wherein reinforcement fibers of the first stitched fabric and the second stitched fabric comprise at least one of glass fibers, carbon fibers, polyester fibers, or natural fibers. 10. The battery tray of claim 1 , wherein at least one of the first metal coated fibers form at least one of an array of grids or an array of apertures; or the second metal coated fibers form at least one of an array of grids or an array of apertures. 11. The battery tray of claim 1 , wherein metallic coatings of the first metal coated fibers and the second metal coated fibers comprise at least one of nickel or copper. 12. The battery tray of claim 1 , wherein at least one of an areal density of the first metal coated fibers varies across the first stitched fabric or an areal density of the second metal coated fibers varies across the second stitched fabric. 13. A power system comprising: the battery tray of claim 1 ; the battery pack contained within the battery tray; and a control circuit connected to at least one of the battery tray or the battery pack and monitoring and controlling states of the battery pack. 14. The battery tray of claim 1 , wherein; each of the first metal coated fibers is arranged in a square-wave pattern such that each of the first metal coated fibers traverses through the first plurality of stacked stitched fabric layers multiple times; and the square-wave pattern is visible by taking a cross-section through the first component in a stacked direction of the first plurality of stacked stitched fabric layers. 15. The battery tray of claim 14 , wherein the lengths and widths of each of the first apertures are greater than λ/50 and less than or equal to λ/20. 16. The battery tray of claim 1 , wherein: the first stitched fabric comprises a plurality of resin layers each of which being disposed between a respective adjacent pair of the first plurality of stacked stitched fabric layers; and the some of the first metal coated fibers extend through the plurality of resin layers. 17. The battery tray of claim 1 , wherein: each of the first plurality of stacked stitched fabric layers comprises some of the first metal coated fibers; and each of the second plurality of stacked stitched fabric layers include some of the second metal coated fibers. 18. The battery tray of claim 1 , wherein: each of the first metal coated fibers is arranged in a square-wave pattern; each of the first metal coated fibers is arranged in the square-wave pattern and extends through the first apertures; and at least one of i) distances between adjacent ones of the first apertures are each equal to λ/20, and ii) distances between parallel members of the first metal coated fibers are each equal to λ/50, such that the first stitched fabric reflects electromagnetic waves experienced by the battery tray. 19. The battery tray of claim 18 , wherein: each of the second metal coated fibers is arranged in a square-wave pattern and extends through multiple second apertures in each of the second plurality of stacked stitched fabric layers; and at least one of distances between adjacent ones of the second apertures are each equal to λ/20; and distances between parallel members of the second metal coated fibers are each equal to λ/50. 20. The battery tray of claim 18 , wherein at least one of i) the distances between the parallel members of the first metal coated fibers are greater than a thickness of the first plurality of stacked stitched fabric layers, and ii) the distances between the parallel members are greater than the distances between the first apertures.