Trimmable heat blanket and heating method

What is claimed is: 1. A heating apparatus that comprises: a blanket that comprises three layers, such that a center layer, of the three layers, comprises an entry tab connected to an individual resistive heating element that comprises a flex circuit configured to couple with a source of electrical power through the entry tab; and control lines connected to the entry tab and the flex circuit arranged such that the blanket, cut to a desired shape retains an electrical connection to the entry tab. 2. The heating apparatus of claim 1 , further comprising: an outer layer, of the three layers, that comprises a flexible material. 3. The heating apparatus of claim 1 , further comprising additional flex circuits in the center layer electrically coupled in parallel with each other. 4. The heating apparatus of claim 1 , further comprising additional flex circuits in the center layer electrically coupled in series with each other. 5. The heating apparatus of claim 1 , further comprising additional flex circuits, in the center layer, each comprise substantially identical size and shape. 6. The heating apparatus of claim 1 , further comprising additional flex circuits arranged in the center layer in a two-dimensional array that comprises N rows and M columns. 7. The heating apparatus of claim 1 , further comprising an array of additional flex circuits in the center layer comprise a one-dimensional array. 8. The heating apparatus of claim 1 , wherein additional flex circuits in the center layer comprise a substantially constant spacing from each other. 9. A heating apparatus that comprises: a blanket that comprises three layers such that a center layer, of the three layers, comprises a resistive printed flex heating circuit laminated between and be coupled through an entry tab with a source of electrical power, such that the resistive printed flex heating circuit comprises a plurality of individual resistive printed flex heating element circuits arranged within the blanket in a configuration such that the blanket, cut to a desired shape, maintains electrical continuity between the source of electrical power and individual resistive printed flex heating element circuits that remain within the desired shape. 10. The heating apparatus of claim 9 , further comprising an outer layer, of the three layers, that comprises vulcanized silicone rubber. 11. The heating apparatus of claim 9 , further comprising the individual printed flex resistive heating element circuits arranged in an array and spaced apart from each other a distance sufficient to permit the blanket to be cut between the individual printed flex resistive heating element circuits. 12. The heating apparatus of claim 11 , wherein the array includes rows and columns. 13. The heating apparatus of claim 9 , further comprising the individual printed flex resistive heating element circuits coupled in series with each other. 14. The heating apparatus of claim 9 , further comprising the individual printed flex resistive heating element circuits coupled in parallel with each other. 15. A method of making a heating apparatus, the method comprising: providing an electrical heat blanket having an array of individual resistive heating element circuits therein adapted to be coupled with a source of electrical power; trimming the electrical heat blanket to a desired shape, and thereby removing at least certain individual resistive heating element circuits from the array of individual resistive heating element circuits; severing an electrical continuity between individual resistive heating element circuits that remain in the electrical heat blanket of the desired shape; and reestablishing the electrical continuity via installing a jumper wire between two of the individual resistive heating element circuits that remain in the electrical heat blanket of the desired shape. 16. The method of claim 15 , further comprising installing a second jumper wire between one of the individual resistive heating element circuits and the source of electrical power. 17. The method of claim 15 , wherein reestablishing the electrical continuity includes: exposing an electrical lead of one of the individual resistive heating element circuits by removing a portion of the electrical heat blanket surrounding the electrical lead along an edge of the heat blanket, and installing an electrical connector module on the edge of the heat blanket. 18. The method of claim 15 , wherein the trimming includes cutting the electrical heat blanket along lines defined by spacing between the individual resistive heating element circuits. 19. The heating apparatus of claim 1 , further comprising the flex circuit connected to the source of electrical power through an electrical bus in the blanket. 20. The heating apparatus of claim 9 , further comprising the resistive printed flex heating circuit connected to the source of electrical power through an electrical bus in the blanket.