Metal strip and coil coating process

The invention claimed is: 1. A coil coating process for multilayer coating of an endless metal strip, comprising: applying a curable polymer primer to a flat side of the metal strip with the aid of a roller application in order to form an electrically insulating primer layer; applying a curable polymer varnish to the primer layer with the aid of a roller application and curing the polymer varnish in order to form an electrically insulating varnish layer; printing at least one electric conductor layer including a first electric conductor layer at least in some areas between the primer layer and the varnish layer; and applying an electrically polarizable layer to at least some regions of the electric conductor layer, and applying the electric conductor layer and the electrically polarizable layer using a wet-on-wet process. 2. The coil coating process according to claim 1 , comprising producing a piezoelectric and/or pyroelectric property in the electrically polarizable layer using a polarization. 3. The coil coating process according to claim 1 , comprising applying PEDOT:PSS as the electric conductor layer and/or applying a PVDF layer as the electrically polarizable layer. 4. The coil coating process according to claim 1 , wherein the electric conductor layer and the electrically polarizable layer are cured simultaneously. 5. The coil coating process according to claim 1 , further comprising printing a second electric conductor layer onto the electrically polarizable layer. 6. The coil coating process according to claim 5 , wherein the first and second electric conductor layers are electrically contacted and as a result, the electrically polarizable layer is polarized. 7. The coil coating process according to claim 1 , comprising printing the electric conductor layer with the aid of a roller-to-roller process. 8. The coil coating process according to claim 7 , wherein the electric conductor layer is printed in a pattern. 9. The coil coating process according to claim 1 , wherein on the flat side of the metal strip, a conversion layer is produced onto which the curable polymer primer is applied. 10. The coil coating process according to claim 1 , wherein the electric conductor layer is printed onto the primer layer, which has been pre-cured at least to above a gel point. 11. The coil coating process according to claim 1 , wherein both the primer and the varnish are chemically cross-linked. 12. The coil coating process according to claim 1 , comprising applying PEDOT:PSS as the electric conductor layer and/or applying a P[VDF-TrFE] layer as the electrically polarizable layer. 13. The coil coating process according to claim 1 , comprising printing the electric conductor layer with the aid of a roller application.