Scale for a length measuring system and method for producing the same

The invention claimed is: 1. A scale for a length-measuring system for recording the absolute values of angles or distances, the scale comprising: (a) a printed circuit board including at least one track for identifying length information or angle information; and (b) a coding for identifying the scale, the coding having at least one coding element with at least two electrodes and a conductive connection between the electrodes on an insulator substrate, wherein the conductive connection is configured to be irreversibly destroyed by applying an electrical current. 2. The scale of claim 1 wherein the at least one coding element is segmented into a plurality of coding segments and each coding segment comprises two electrodes with a conductive connection between them. 3. The scale of claim 1 wherein the electrodes of each coding segment are separated from each other in terms of their potentials. 4. The scale of claim 1 further including an absolute track and an incremental track. 5. The scale of claim 4 wherein the absolute track and/or the incremental track is configured as a strip conductor, a magnetic trace or a printed trace. 6. The scale of claim 1 wherein the printed circuit board is produced by photochemical means, by stamping or wire-laying methods, by screen printing or by milling. 7. The scale of claim 2 wherein the conductive connection includes a predetermined breaking point. 8. The scale of claim 2 wherein the conductive connection can be visually inspected by a person whether it is intact or irreversibly destroyed. 9. A length-measuring system for recording the absolute values of angles or distances comprising: a plurality of scales arranged next to each other and each scale including (a) a printed circuit board with at least one track for identifying length information or angle information; and (b) coding for identifying each scale, the coding having at least one coding element with at least two electrodes and a conductive connection between the electrodes on an insulator substrate, wherein the conductive connection is configured to be irreversibly destroyed by applying an electrical current; a first sensor unit having at least one sensor for recording the length or angle data of each of the plurality of scales; wherein the length information or angle information on the at least one track of each scale are identical; and the coding of each scale of the length-measuring system is configured in such a way that it differs from another scale by at least one coding element. 10. The length-measuring system of claim 9 further including a second sensor unit with at least one sensor for recording the length information or angle information and the coding of each of the plurality of scales and a control unit. 11. The length-measuring system of claim 10 wherein the measurement principle of the sensors of the first and/or second sensor unit is based on an optical, magnetic, inductive, electromagnetic, or capacitance measurement method or on a combination of said measurement methods. 12. A method for the production of a length-measuring system for recording the absolute values of angles or distances, the method comprising: providing a plurality of identical scales, each scale including (a) a printed circuit board with at least one track for identifying length information or angle information; and (b) a coding for identifying each scale, the coding having at least one coding element with at least two electrodes and a conductive connection between the electrodes on an insulator substrate, the length information or angle information on the at least one track of each scale and the coding elements of each scale of the length-measuring system are identical; arranging the plurality of scales next to each other; and identifying each of the plurality of scales by the selective application of a current to at least one coding element, so that each of the plurality of scales comprises a different coding caused by the application of a current. 13. The method of claim 12 wherein the arranging and identifying steps can be carried out in the reverse order.