Coil structure and electromagnetic component using the same

What is claimed is: 1. An electromagnetic component, comprising: a conductive structure, comprising at least one conductive layer to form a coil, wherein a conductive layer comprises a coil pattern comprising a middle trace comprising a contiguous portion extending from a first side of the conductive layer to a second side opposite to the first side of the conductive layer, a first slim trace and a second slim trace, wherein the first slim trace comprises a first end point of the coil pattern and the second slim trace comprises a second end point of the coil pattern, and each of an inner side surface of the middle trace on the first side of the conductive layer and an inner side surface of the first slim trace on the second side of the conductive layer respectively forms a corresponding part of the innermost boundary of the coil pattern, wherein the width of the middle trace is respectively greater than that of the first slim trace and the second slim trace, wherein along the winding direction of the coil pattern, the total length of the middle trace is respectively greater than that of the first slim trace comprising said first end point of the coil pattern and the second slim trace comprising said second end point of the coil pattern, wherein a portion of an outer side surface of the first slim trace and a portion of an inner side surface of the second slim trace are placed side by side on the second side of the conductive layer for matching the width of the middle trace with a total of the width of the first slim trace, the width of the second slim trace and a spacing between said two slim traces. 2. The electromagnetic component according to claim 1 , wherein the conductive layer further comprises a first transition trace, wherein the width of the first transition trace is gradually reduced to connect the middle trace to the first slim trace. 3. The electromagnetic component according to claim 2 , wherein the width of the first transition trace is gradually reduced only in an inner side of the first transition trace to connect the middle trace to the first slim trace. 4. The electromagnetic component according to claim 2 , wherein the conductive layer further comprises a second transition trace, wherein the width of the second transition trace is gradually reduced to connect the middle trace to the second slim trace. 5. The electromagnetic component according to claim 1 , wherein the width of the middle trace is substantially equal to the total of the width of the first slim trace, the width of the second slim trace and the spacing between said two slim traces. 6. The electromagnetic component according to claim 1 , the width of middle trace is about 210 micrometers, each of the width of the first slim trace and the width of the second slim trace is respectively less than or equal to 100 micrometers and the spacing between the first slim trace and the second slim trace is about 5-30 micrometers. 7. The electromagnetic component according to claim 1 , the width of middle trace is about 210 micrometers, each of the width of the first slim trace and the width of the second slim trace is respectively less than or equal to 100 micrometers and the spacing between the first slim trace and the second slim trace is about 5-10 micrometers. 8. The electromagnetic component according to claim 1 , wherein the conductive structure is on a substrate, wherein a molding body encapsulates the substrate and the conductive structure, wherein the molded body is extended into an opening of the substrate to form a pillar, wherein the coil is wound around the pillar. 9. The electromagnetic component according to claim 8 , wherein the substrate comprises serrations around a perimeter of the opening. 10. The electromagnetic component according to claim 1 , wherein a first portion of the conductive structure is on a top surface of the substrate and a second portion of the conductive structure is on a bottom surface of the substrate, wherein a molding body encapsulates the substrate and the conductive structure, wherein the molding body is extended into an opening of the substrate to form a pillar, wherein the coil is wound around the pillar. 11. The electromagnetic component according to claim 1 , wherein a first electrode is electrically connected to said first end point of the first slim trace and a second electrode is electrically connected to said second end point of the second slim trace. 12. An electromagnetic component, comprising: a conductive structure, comprising at least one conductive layer to form a coil, wherein a conductive layer comprises a coil pattern comprising a middle trace comprising a contiguous portion extending from a first side of the conductive layer to a second side opposite to the first side of the conductive layer, a first transition trace, a second transition trace, a first slim trace and a second slim trace, wherein the first slim trace comprises a first end point of the coil pattern and the second slim trace comprises a second end point of the coil pattern, and each of an inner side surface of the middle trace on the first side of the conductive layer and an inner side surface of the first slim trace on the second side of the conductive layer respectively forms a corresponding part of the innermost boundary of the coil pattern, wherein the width of the middle trace is respectively greater than that of the first slim trace and the second slim trace, wherein along the winding direction of the coil pattern, the total length of the middle trace is respectively greater than that of the first slim trace comprising said first end point of the coil pattern and the second slim trace comprising said second end point of the coil pattern, wherein a portion of an outer side surface of the first slim trace and a portion of an inner side surface of the second slim trace are placed side by side on the second side of the conductive layer, wherein the width of the first transition trace is gradually reduced to connect the middle trace to the first slim trace, and the width of the second transition trace is gradually reduced to connect the middle trace to the second slim trace. 13. The electromagnetic component according to claim 12 , wherein a portion of an outer side surface of the first slim trace and a portion of an inner side surface of the second slim trace are placed side by side such that the width of the middle trace is substantially equal to the total of the width of the first slim trace, the width of the second slim trace and a spacing between the two slim trace. 14. The electromagnetic component according to claim 13 , wherein a first electrode is electrically connected to said first end point of the first slim trace and a second electrode is electrically connected to said second end point of the second slim trace. 15. The electromagnetic component according to claim 12 , the width of middle trace is about 210 micrometers, each of the width of the first slim trace and the width of the second slim trace is respectively less than or equal to 100 micrometers, and the spacing between the first slim trace and the second slim trace is about 5-30 micrometers. 16. The electromagnetic component according to claim 12 , the width of middle trace is about 210 micrometers, each of the width of the first slim trace and the width of the second slim trace is respectively less than or equal to 100 micrometers, and the spacing between the first slim trace and the second slim trace is about 5-10 micrometers. 17. The electromagnetic component according to claim 12 , wherein the conductive structure is disposed on a s