Woven smart susceptor heat blankets

What is claimed is: 1. A heating blanket, comprising: a conductor yarn configured to receive electrical current and generate a magnetic field in response to the electrical current; a susceptor formed in a plurality of elongate susceptor yarns interlaced with the conductor yarn to form a layer of fabric, wherein the plurality of susceptor yarns is composed of a susceptor material having a magnetic state at temperatures below a Curie point of the susceptor material and a non-magnetic state at temperatures above the Curie point of the susceptor material, wherein the Curie point of the susceptor material is at least 100 degrees F., and wherein the susceptor material is configured to inductively generate heat in response to the magnetic field of the conductor yarn when the susceptor material is in the magnetic state at temperatures below the Curie point of the susceptor material; and a power supply operably coupled to the conductor yarn and configured to generate the electrical current through the conductor yarn at a frequency sufficient to heat the susceptor yarns to the Curie point of the susceptor material. 2. The heating blanket of claim 1 , wherein the layer of fabric is sandwiched between a first layer and a second layer. 3. The heating blanket of claim 2 , wherein each of the first layer and the second layer is composed of a fabric material. 4. The heating blanket of claim 1 , wherein the conductor yarn comprises a Litz wire. 5. The heating blanket of claim 1 , wherein the conductor yarn comprises multiple parallel circuits of Litz wire. 6. The heating blanket of claim 1 , wherein the plurality of susceptor yarns comprise a plurality of alloy susceptor wires. 7. The heating blanket of claim 6 , wherein the plurality of alloy susceptor wires includes at least a first alloy susceptor wire having a first Curie point and a second alloy susceptor wire having a second Curie point different than the first Curie point. 8. The heating blanket of claim 1 , wherein the conductor yarn is a weft yarn and the plurality of susceptor yarns are warp yarns. 9. The heating blanket of claim 1 , wherein the conductor yarn and the plurality of susceptor yarns are woven together. 10. The heating blanket of claim 9 , wherein the conductor yarn and the plurality of susceptor yarns are woven together in a plain weave pattern. 11. The heating blanket of claim 1 , wherein the conductor yarn and the plurality of susceptor yarns are knitted together. 12. The heating blanket of claim 1 , wherein the conductor yarn and each of the plurality of susceptor yarns include insulators composed of one of nylon or polyester. 13. A heating blanket, comprising: a first layer and a second layer composed of a fabric material; an internal layer sandwiched between the first layer and the second layer, the internal layer formed of a conductor yarn woven together with a plurality of elongate susceptor yarns, the conductor yarn configured to receive electrical current and generate a magnetic field in response to the electrical current, the plurality of susceptor yarns composed of a susceptor material having a magnetic state at temperatures below a Curie point of the susceptor material and a non-magnetic state at temperatures above the Curie point of the susceptor material, wherein the Curie point of the susceptor material is at least 100 degrees F., and wherein the susceptor material is configured to inductively generate heat in response to the magnetic field of the conductor yarn when the susceptor material is in the magnetic state at temperatures below the Curie point of the susceptor material; and a power supply operably coupled to the conductor yarn and configured to generate the electrical current through the conductor yarn at a frequency sufficient to heat the susceptor yarns to the Curie point of the susceptor material. 14. The heating blanket of claim 13 , wherein the conductor yarn comprises a Litz wire. 15. The heating blanket of claim 13 , wherein the plurality of susceptor yarns comprise a plurality of alloy susceptor wires. 16. The heating blanket of claim 13 , wherein the conductor yarn and the plurality of susceptor yarns are woven together in one of a plain weave, twill weave, satin weave, or knitted pattern. 17. The heating blanket of claim 13 , wherein the fabric material comprises one of cotton, polyester, or a combination thereof. 18. The heating blanket of claim 13 , wherein each of the plurality of susceptor yarns and the conductor yarn includes an insulator. 19. The heating blanket of claim 18 , wherein the insulator is composed of one of nylon or polyester. 20. A method of manufacturing a heating blanket, comprising: selecting a plurality of elongate susceptor warp yarns and a conductor weft yarn, the conductor weft yarn configured to receive electrical current and generate a magnetic field in response to the electrical current, the plurality of susceptor warp yarns composed of a susceptor material having a magnetic state at temperatures below a Curie point of the susceptor material and a non-magnetic state at temperatures above the Curie point of the susceptor material, wherein the Curie point of the susceptor material is at least 100 degrees F., and wherein the susceptor material is configured to inductively generate heat in response to the magnetic field of the conductor weft yarn when the susceptor material is in the magnetic state at temperatures below the Curie point of the susceptor material; weaving the plurality of susceptor warp yarns and the conductor weft yarn together to form a fabric; and connecting a power supply to the conductor weft yarn, wherein the power supply is configured to generate the electrical current through the conductor weft yarn at a frequency sufficient to heat the susceptor warp yarns to the Curie point of the susceptor material.