Transparent window pane with a heating coating

The invention claimed is: 1. A transparent window pane comprising: an electrically heating coating that extends over a large part of a surface of the window pane, or over its field of vision, and which is electrically connected to at least two busbars of low electrical resistance, such that, after an electrical supply voltage has been applied to the busbars, an electrical current flows in a heating field formed by the coating, the electrically heating coating extending over an area between the at least two busbars; and a heating element including conducting elements of low electrical resistance that extend between a first heating element bus bar and a second heating element bus bar, the conducting elements being printed conducting tracks and/or wires, an entirety of the heating element being provided in a zone of the surface that is not heated by the coating and on the same face as the coating, the entire zone being located outside the area between the at least two busbars and positioned between an edge of the electrically heating coating and a lower edge of the window pane, the heating element including the first heating element bus bar and second heating element bus bar are electrically isolated from the at least two busbars and electrically isolated from the coating. 2. The window pane as claimed in claim 1 , wherein the zone of the surface not heated by the coating lies on an edge of the transparent window pane. 3. The window pane as claimed in claim 1 , which is a composite window pane including at least two rigid panes and an adhesive layer joining the two rigid planes together by surface bonding, and wherein the coating and the heating element lie on one face, located on the inside of the composite, of one of the rigid panes. 4. The window pane as claimed in claim 1 , wherein the coating has a surface resistance of between 1 and 5 ohms/□ and includes one or more electrically conducting partial layers. 5. The window pane as claimed in claim 1 , wherein the heating element includes at least a single conductor or a plurality of conductors electrically connected in parallel. 6. The window pane as claimed in claim 5 , wherein the heating element is formed by printing on a surface of the window pane or on a film. 7. The window pane as claimed in claim 5 , wherein the heating element includes fine wires and two busbars joining the fine wires at the end on an adhesive layer for the composite window pane or on a separate transfer film. 8. The window pane as claimed in claim 1 , wherein the coating and the heating element have external connectors separated from each other and/or may be electrically supplied independently of each other. 9. The window pane as claimed in claim 1 , wherein other conducting elements of low electrical resistance extend into the heating field in contact with the coating from at least one of the busbars. 10. The window pane as claimed in claim 9 , wherein the conducting elements are printed lines and/or wires. 11. The window pane as claimed in claim 9 , wherein the other conducting elements are placed at uniform or non-uniform distances apart. 12. The window pane as claimed in claim 9 , wherein the other conducting elements all have a same length or all have different lengths. 13. The window pane as claimed in claim 9 , wherein the other conducting elements are placed only over part of the longitudinal extension of one or both busbars. 14. The window pane as claimed in claim 9 , wherein the other conducting elements are produced in a form of lines, open or closed loops, straight segments, arcs and/or meanders. 15. The window pane as claimed in claim 9 as a vehicle windshield, wherein the other conducting elements extend at most as far as a boundary of a standardized field of vision of the windshield. 16. The window pane as claimed in claim 1 , wherein its edge is covered by an opaque colored layer at least over part of its periphery, or in a region of the busbars and in the zone heated with the heating element. 17. The window pane as claimed in claim 1 , wherein the busbars are formed by printing and/or by metal films. 18. The window pane as claimed in claim 17 , wherein the busbars are configured to be printed on the respective substrate before or after deposition of the coating. 19. The window pane as claimed in claim 17 , wherein the busbars are composed of metal films and are electrically connected to the coating and to other conducting elements by brazing, at least at discrete contact points. 20. The window pane as claimed in claim 1 , wherein the heating element lies in a zone in which wipers provided for wiping the window pane are in a parked or stowed position. 21. The window pane as claimed in claim 20 , wherein the heating element extends along one or more lateral sides of the window pane. 22. The window pane as claimed in claim 1 , wherein a tinted color strip extends at least along its upper edge in the mounting position and at least partly masks the conducting elements placed in this region. 23. The window pane as claimed in claim 1 , wherein a first busbar of the at least two busbars extends along a first edge of the coating and a second busbar of the at least two busbars extends along an opposite edge of the coating from the first edge, and no portion of the first busbar is located on the opposite edge of the coating.