Hold down for retaining a heat sink

The invention claimed is: 1. A hold down for a heat sink in an electronic device that includes a circuit board having at least one component, a support frame coupled to the circuit board, and a thermal pad thermally coupled to the component, the heat sink being associated with the thermal pad, wherein the hold down comprises: a portion adapted to be positioned over a surface of the heat sink, said portion comprising a plurality of wires that extend diagonally over the surface of the heatsink and cross each other; and a plurality of connecting structures extending from the portion and configured each to engage with the heat sink or the support frame, said plurality of connecting structures being configured to cause the hold down to apply a biasing force against the surface of the heat sink to retain the thermal pad against at least one of the heat sink or the component when the heat sink and the thermal pad are positioned between the hold down and the support frame. 2. The hold down of claim 1 , wherein at least one of the connecting structures is configured to engage with a bottom frame of the support frame. 3. The hold down of claim 1 , wherein the connecting structures comprise an aperture configured to engage with one or more extensions protruding from the support frame. 4. The hold down of claim 1 , wherein: the connecting structures extend angularly from ends of the portion; and the portion is configured such that, in its free state, the ends of the portion are bowed away from a direction in which the connecting structures extend. 5. The hold down of claim 1 , wherein the portion is adapted to be received by at least one groove in the surface of the heat sink. 6. The hold down of claim 1 , wherein at least one of the plurality of connecting structures is configured to engage with a plurality of mating locations defined on the support frame to allow the portion to apply the biasing force. 7. The hold down of claim 1 , wherein said plurality of wires cross each other in a region being over or inside a central depression portion of said heat sink. 8. The hold down of claim 1 , wherein said plurality of wires include central portions that are adapted to extend downwards along an inner surface of a central depression portion of said heat sink. 9. An electronic device comprising: a circuit board having at least one component; a support frame coupled to the circuit board; a thermal pad thermally coupled to the component; a heat sink associated with the thermal pad; and a hold down for providing a biasing force against the heat sink, wherein the hold down comprises: a portion adapted to be positioned over a surface of the heat sink, said portion comprising a plurality of wires that extend diagonally over the surface of the heatsink and cross each other; and a plurality of connecting structures extending from the portion and configured each to engage with the heat sink or the support frame, said plurality of connecting structures being configured to cause the hold down to apply the biasing force against the surface of the heat sink to retain the thermal pad against at least one of the heat sink or the component when the heat sink and the thermal pad are positioned between the hold down and the support frame. 10. The electronic device of claim 9 , wherein the support frame comprises a bottom frame. 11. The electronic device of claim 9 , wherein the connecting structures comprise an aperture configured to engage with one or more extensions protruding from the support frame. 12. The electronic device of claim 9 , wherein: the connecting structures extend angularly from ends of the portion, and the portion is configured such that, in its free state, the ends of the portion are bowed away from a direction in which the connecting structures extend. 13. The electronic device of claim 9 , wherein at least one of the plurality of connecting structures is configured to engage with a plurality of mating locations defined on the support frame to allow the portion to apply the biasing force. 14. The electronic device of claim 9 , wherein said plurality of wires cross each other in a region being over or inside a central depression portion of said heat sink. 15. The electronic device of claim 9 , wherein said plurality of wires include central portions that are adapted to extend downwards along an inner surface of a central depression portion of said heat sink. 16. Heat sink for an electronic device that includes a circuit board having at least one component, a support frame coupled to the circuit board, a thermal pad thermally coupled to the component, and a hold down comprising a plurality of connecting structures, a portion of said hold down adapted to be positioned over a surface of the heat sink said portion comprising a plurality of wires that extend diagonally over the surface of the heat sink and cross each other, wherein said heat sink is associated with the thermal pad and is configured to be engaged with at least one of said plurality of connecting structures of said hold down to cause the hold down to apply a biasing force against the surface of the heat sink to retain the thermal pad against at least one of the heat sink or the component when the heat sink and the thermal pad are positioned between the hold down and the support frame. 17. The heat sink of claim 16 , wherein said plurality of wires cross each other in a region being over or inside a central depression portion of said heat sink. 18. The heat sink of claim 16 , wherein said plurality of wires include central portions that are adapted to extend downwards along an inner surface of a central depression portion of said heat sink. 19. Support frame for an electronic device that includes a circuit board having at least one component, a thermal pad thermally coupled to the component, a heat sink associated with the thermal pad and a hold down, a portion of said hold down adapted to be positioned over a surface of the heat sink, said portion comprising a plurality of wires that extend diagonally over the surface of the heat sink and cross each other, wherein said support frame is coupled to the circuit board and is configured to be engaged with each of a plurality of connecting structures of said hold down to cause the hold down to apply a biasing force against said surface of the heat sink to retain the thermal pad against at least one of the heat sink or the component when the heat sink and the thermal pad are positioned between the hold down and the support frame.