Thermoformable polymer thick film transparent conductor with haptic response and its use in capacitive switch circuits

What is claimed is: 1. A polymer thick film transparent conductive composition with haptic response capability comprising: (a) 10-70 wt % of a conductive oxide powder selected from the group consisting of indium tin oxide powder, antimony tin oxide powder and mixtures thereof; (b) 10-50 wt % of a first organic medium comprising 10-50 wt % thermoplastic urethane resin dissolved in a first organic solvent, wherein the weight percent of the thermoplastic urethane resin is based on the total weight of the first organic medium; (c) 10-50 wt % of a second organic medium comprising 10-50 wt % thermoplastic polyhydroxyether resin dissolved in a second organic solvent wherein the weight percent of the thermoplastic polyhydroxyether resin is based on the total weight of the second organic medium; and (d) 10-50 wt % of a third organic medium comprising at least one electroactive polymer that provides haptic response capability in a third organic solvent; wherein the weight percent of said conductive filler, said first organic medium, said second organic medium and said third organic medium are based on the total weight of said polymer thick film conductive composition. 2. The polymer thick film transparent conductive composition of claim 1 , further comprising (e) 1-20 wt % of a fourth organic solvent, wherein the fourth organic solvent is diacetone alcohol and wherein the weight percent is based on the total weight of said polymer thick film conductive composition. 3. A polymer thick film transparent conductive composition with haptic response capability comprising: (a) 10-70 wt % of a conductive oxide powder selected from the group consisting of indium tin oxide powder, antimony tin oxide powder and mixtures thereof; (b) 10-50 wt % of a first organic medium comprising 10-50 wt % thermoplastic urethane resin dissolved in a first organic solvent, wherein the weight percent of the thermoplastic urethane resin is based on the total weight of the first organic medium; and (c) 10-50 wt % of a second organic medium comprising at least one electroactive polymer that provides haptic response capability in a second organic solvent; wherein the weight percent of said conductive filler, said first organic medium and said second organic medium are based on the total weight of said polymer thick film conductive composition. 4. The polymer thick film transparent conductive composition of claim 3 , further comprising (d) 1-20 wt % of a third organic solvent, wherein the third organic solvent is diacetone alcohol and wherein the weight percent is based on the total weight of said polymer thick film conductive composition. 5. An electrical circuit comprising a transparent conductor with haptic response formed from a polymer thick film conductive composition with haptic response capability comprising: (a) 10-70 wt % of a conductive oxide powder selected from the group consisting of indium tin oxide powder, antimony tin oxide powder and mixtures thereof; (b) 10-50 wt % of a first organic medium comprising 10-50 wt % thermoplastic urethane resin dissolved in a first organic solvent, wherein the weight percent of the thermoplastic urethane resin is based on the total weight of the first organic medium; (c) 10-50 wt % of a second organic medium comprising 10-50 wt % thermoplastic polyhydroxyether resin dissolved in a second organic solvent wherein the weight percent of the thermoplastic polyhydroxyether resin is based on the total weight of the second organic medium; and (d) 10-50 wt % of a third organic medium comprising at least one electroactive polymer that provides haptic response capability in a third organic solvent; wherein the weight percent of said conductive oxide powder, said first organic medium, said second organic medium and said third organic medium are based on the total weight of said polymer thick film conductive composition and wherein said polymer thick film conductive composition is dried to form said transparent conductor. 6. The electrical circuit of claim 5 , said polymer thick film conductive composition further comprising (e) 1-20 wt % of a fourth organic solvent, wherein the fourth organic solvent is diacetone alcohol and wherein the weight percent is based on the total weight of said polymer thick film conductive composition. 7. The electrical circuit of claim 5 , wherein said electrical circuit is thermoformed. 8. The electrical circuit of claim 6 , wherein said electrical circuit is thermoformed. 9. The electrical circuit of claim 7 , wherein said electrical circuit is subjected to an injection molding process subsequent to being thermoformed. 10. The electrical circuit of claim 8 , wherein said electrical circuit is subjected to an injection molding process subsequent to being thermoformed. 11. The electrical circuit of claim 6 , further comprising an encapsulant layer. 12. The electrical circuit of claim 11 , wherein said encapsulant layer is selected from the group consisting of (i) a dried encapsulant layer comprising the same polymers in the same ratios as present in said first and second organic mediums of the polymer thick film conductive composition in the same ratio or in different ratios, wherein said polymer thick film conductive composition is dried before said encapsulant layer is deposited and dried and (ii) a UV-cured encapsulant layer comprising one or more UV-curable polymers, wherein said polymer thick film conductive composition is dried before said encapsulant layer is deposited and UV-cured. 13. The electrical circuit of claim 6 , further comprising a thermoformable silver conductor, wherein said transparent conductor has been formed on said thermoformable silver conductor or wherein, following the drying of said polymer thick film conductive composition to form said transparent conductor, said thermoformable silver conductor is formed on top of said transparent conductor. 14. The electrical circuit of claim 12 , further comprising a thermoformable silver conductor, wherein said transparent conductor has been formed on said thermoformable silver conductor and said encapsulant layer is deposited on said transparent conductor, or wherein, following the drying of said polymer thick film conductive composition to form said transparent conductor, said thermoformable silver conductor is formed on top of the transparent conductor before said encapsulant layer is deposited on said thermoformable silver conductor. 15. The electrical circuit of claim 12 , wherein said electrical circuit is thermoformed. 16. The electrical circuit of claim 14 , wherein said electrical circuit is thermoformed. 17. The electrical circuit of claim 15 , wherein said electrical circuit is subjected to an injection molding process subsequent to being thermoformed. 18. The electrical circuit of claim 16 , wherein said electrical circuit is subjected to an injection molding process subsequent to being thermoformed. 19. An electrical circuit comprising a transparent conductor with haptic response formed from a polymer thick film conductive composition with haptic response capability comprising: (a) 10-70 wt % of a conductive oxide powder selected from the group consisting of indium tin oxide powder, antimony tin oxide powder and mixtures thereof; (b) 10-50 wt % of a first organic medium comprising 10-50 wt % thermoplastic urethane resin dissolved in a first organic solvent, wherein the weight percent of the thermoplastic urethane resin is based on the total weight of the first organic medium; and (c) 10-50 wt % of a secon