Textile constructs formed with fusible filaments

The invention claimed is: 1. A textile construct, comprising: a first side or layer of the textile construct comprising a porous membrane of fused material having a substantially solid surface area of at least 90%; a second side or layer of the textile construct comprising a discrete lattice structure of filaments, the second side or layer being adjacent to and coextensive with the first side or layer; and the porous membrane of fused material and discrete lattice structure being formed of a unitary plaited knit structure of a plurality of two or more paired fusible and non-fusible filaments in a plurality of courses and wales, wherein the fusible filaments in the two or more paired fusible and non-fusible filaments are selectively disposed primarily on the first side or layer of the textile construct and the non-fusible filaments in the two or more paired fusible and non-fusible filaments are selectively disposed primarily on the second side or layer of the textile construct, the porous membrane of fused material being formed of the fusible filaments. 2. The textile construct of claim 1 wherein the plaited knit structure comprises a single jersey plaited knit structure and the first side or layer of the textile construct comprises the porous membrane, the porous membrane being formed of filaments in the same single jersey plaited knit structure of which the discrete lattice is formed. 3. The textile construct of claim 1 wherein the porous membrane of fused material is an intermediate layer between the second side or layer and a third side or layer comprising a second discrete lattice structure, the second side comprising the discrete lattice structure in a unitary structure with a first side of the porous membrane and the third sides comprising the second discrete lattice structure of filaments in a unitary structure with a second side of the porous membrane. 4. The textile construct of claim 3 wherein the construct comprises a double jersey spacer knit structure having technical back and technical face fabrics corresponding to the second and third sides or layers, the porous membrane of fused material being formed at least in part by fusible filaments used as spacer yarns to interlock the technical back and face in the unitary structure. 5. The textile construct of claim 4 wherein at least one of a technical back or face in the double jersey structure has a pattern of alternating loops and floats on one side and an opposing side has loops that match to the floats. 6. A textile construct of claim 3 the second layer and/or third layer comprising a grid of nodes defined by intersecting courses and wales, a pixelated pattern of portals or voids being defined in the second layer and/or third layer, exposing the intermediate layer. 7. The textile construct of claim 6 wherein one of the second and third sides or layers comprises a back layer, wherein the pixelated pattern is formed in the technical back of the back layer. 8. The textile construct of claim 6 wherein the pixelated pattern comprises at least 5% of the surface of the front and/or backside of layers adjacent the intermediate layer. 9. The textile construct of claim 1 wherein the porous membrane of fused material has a porosity or diffusibility sufficient to allow for selective blocking of liquid phase water on one surface and passage of vapor phase water through an opposite surface during conditions intended for an outdoor apparel usage. 10. The textile construct of claim 1 wherein the porous membrane of fused material has porosity sufficient for air permeability of 1.0 to 80 CFM or thereabout. 11. The textile construct of claim 9 wherein the fusible filaments comprise filaments having a glass transition temperature in the range of 110 degrees C. to 160 degrees C. or thereabout. 12. The textile construct of claim 11 wherein the non-fusible filaments comprise a shrinkable yarn capable of shrinking in length 5%-40% or thereabout when subjected to a temperature of from 110 degrees C. to 160 degrees C. or thereabout. 13. The textile construct of claim 12 wherein the porous membrane of fused material has a pore density of at least 9 billion pores per square inch and/or average pore size of 0.2 microns or less. 14. The textile construct of claim 13 wherein the construct has an elasticity of 1% to about 30%, and wherein the fusible and non-fusible fibers have stretchability values within 40% of each other. 15. The textile construct of claim 1 wherein the shrink or stretch ratio of the non-fusible filaments and fusible filaments is matched so that in the textile construct the shrinking or stretching of the material for one of the porous membrane of fused material or discrete lattice structure will not cause delamination, separation, tearing or other significant damage to the other of the porous membrane or lattice structure during shrinking or stretching of the textile construct. 16. The textile construct of claim 9 wherein the membrane provides waterproofness or water resistance and/or breathability to the construct according to one or more of the following standards: Low range hydrostatic—AATCC127 (Option 2) or JIS L1092; High range hydrostatic—ASTM D751 (Fed Std 191-A55); MVTR (upright)—ASTM E96B; MVTR (inverted)—JIS L 1099 (Method B); and Air Permeability—ASTM D737. 17. A textile construct of the claim 13 wherein the fusible filaments comprise a thermoplastic PTFE. 18. The textile construct of claim 1 wherein a combination of tuck and knit stitches are used in the construct, the tuck stitches being made with fusible filaments and the knit stitches being made with non-fusible filaments comprising shrinkable yarn arranged and adapted to pull the second side or layer towards the first side or layer when shrunk. 19. A method of forming a textile construct, comprising: providing a composite lattice structure comprising a unitary plaited knit structure of a plurality of two or more paired fusible and non-fusible filaments in a plurality of courses and wales, with the fusible filaments in the two or more paired fusible and non-fusible filaments being selectively disposed primarily on a first side or layer of the composite lattice structure and the non-fusible filaments in the two or more paired fusible and non-fusible filaments being selectively disposed primarily on a second side or layer of the lattice structure adjacent to and coextensive with the first side or layer; and subjecting the composite lattice structure to a fusing agent, sufficient to selectively cause the fusible filaments in the first side or layer to fuse into a porous membrane of fused material having a substantially solid surface area of at least 90% and disposed substantially on the first side or layer of the construct while maintaining the side or layer substantially in a discrete lattice structure. 20. The method of claim 19 wherein the composite lattice structure further comprises a third group of non-fusible filaments in a third side or layer on an opposite side of the porous membrane of fused material as the second side or layer. 21. A textile construct, comprising: a first side or layer of the textile construct comprising a porous membrane of fused material having a substantially solid surface area of at least 90%; a second side or layer comprising a discrete lattice structure of filaments, the second side being adjacent to and coextensive with the first side or layer of the porous membrane of fused material; and the porous membrane and discrete lattice str