Patent ID: 7846317

Claim:
A printed wiring board consisting of a printed wiring board produced by the method of processing a printed wiring board by electrodeposition, by implementing initial processing steps on said printed wiring board including drilling holes, plating holes, and depositing image circuitry, by utilizing a single bath having an absence of lead and containing very dilute solutions of nickel and copper with said very dilute solutions of nickel and copper being sufficiently dilute to insure the deposition of distinct layers of copper having a thickness on the order of 12 microns and the deposition of distinct layers of nickel having a thickness on the order of thicknesses of 1 micron and having additional metals at least one of which is manganese, chromium, zinc, iron, cobalt, cadmium, tin, arsenic, antimony, bismuth, gold, or silver, by plating copper having a thickness on the order of 12 microns on said printed wiring board from said single bath containing nickel and copper, said plating copper including providing a low reduction potential in said single bath and providing high agitation conditions in said single bath, by plating nickel having a thickness on the order of thicknesses of 1 micron on said printed wiring board from said single bath containing nickel and copper, said plating nickel including providing a high reduction potential in said single bath and providing low agitation conditions in said single bath, by building alternating very thin layers of nickel having a thickness on the order of thicknesses of 1 micron and copper having a thickness on the order of 12 microns on said printed wiring board by repeatedly building layers of nickel having a thickness on the order of thicknesses of 1 micron and copper having a thickness on the order of 12 microns on said printed wiring board from said single bath containing nickel and copper, by plating additional metals at least one of which is manganese, chromium, zinc, iron, cobalt, cadmium, tin, arsenic, antimony, bismuth, gold, or silver, and by implementing final processing steps on said printed wiring board including etching, cleaning and labeling, wherein said method of processing a printed wiring board by electrodeposition produces said printed wiring board consisting of: alternating very thin layers of nickel and copper and additional metals at least one of which is manganese, chromium, zinc, iron, cobalt, cadmium, tin, arsenic, antimony, bismuth, gold, or silver, and image circuitry; wherein said layers of copper have a thickness on the order of 12 microns and said layers of nickel have a thickness on the order of thicknesses of 1 micron and said printed wiring board has an absence of lead.