Coil and coil production method

What is claimed is: 1. A coil formed of a laminate sheet prepared from a coil sheet, the coil sheet including: a conductor layer; a single insulating layer formed of thermally resistant organic material and directly formed on the conductor layer; and a base layer bonded to the single insulating layer with a single thermosetting adhesive layer in a B-stage state interposed therebetween, such that the conductor layer, the single insulating layer, the single adhesive layer, and the base layer are stacked in this order with no other layers, wherein the laminate sheet has a three-layer structure formed of the conductor layer, the single insulating layer, and the single adhesive layer only, which are released from the base layer, and wherein the laminate sheet is wound around an axis a plurality of times to form a winding of the laminate sheet having a plurality of turns around the axis, such that the single adhesive layer of one turn which is thermally cured is in direct contact with the conductor layer of another turn next to the one turn. 2. The coil according to claim 1 , wherein the conductor layer has a thermal expansion coefficient approximately equal to that of the insulating layer. 3. The coil according to claim 2 , wherein the conductor layer is formed of copper, and the insulating layer is formed of a polyimide-silica hybrid. 4. The coil according to claim 2 , wherein the conductor layer is formed of copper, and the insulating layer has a thermal expansion coefficient of 10 to 24 ppm/° C. 5. The coil according to claim 2 , wherein the conductor layer is subjected to surface roughening treatment. 6. The coil according to claim 1 , wherein the conductor layer is formed of copper, and the insulating layer is formed of a polyimide-silica hybrid. 7. The coil according to claim 6 , wherein the conductor layer is formed of copper, and the insulating layer has a thermal expansion coefficient of 10 to 24 ppm/° C. 8. The coil according to claim 1 , wherein the conductor layer is formed of copper, and the insulating layer has a thermal expansion coefficient of 10 to 24 ppm/° C. 9. The coil according to claim 1 , wherein the conductor layer is subjected to surface roughening treatment. 10. The coil according to claim 1 , wherein the amount of misalignment between end portions, in a direction of the axis, of radially adjacent portions of the laminate sheet wound around the axis a plurality of times is 2% or less the width of the laminate sheet.