Abstract: The present invention includes an apparatus and method for continuously adjusting the anode/cathode distance for controlling uniformity of deposition. The entire cathode head is mounted on a lead screw which, when manually turned, moves the cathode head in or out in relation to the anode basket. Alternatively, the lead screw mechanism is driven by a servo motor and is suitably controlled by a computer which monitors the voltage and current in the electroforming cell and adjusts the screw accordingly. The present invention also includes an apparatus and method for a hinged, coated, metal clamping mechanism for fixturing a master against a backplate. To avoid plating of the metallic clamping ring, the metal is coated with a suitable substantially non-conductive, substantially non-chipping, extremely thin material.

Abstract: The present invention includes an apparatus and method for continuously adjusting the anode/cathode distance for controlling uniformity of deposition. The entire cathode head is mounted on a lead screw which, when manually turned, moves the cathode head in or out in relation to the anode basket. Alternatively, the lead screw mechanism is driven by a servo motor and is suitably controlled by a computer which monitors the voltage and current in the electroforming cell and adjusts the screw accordingly. The present invention also includes an apparatus and method for a hinged, coated, metal clamping mechanism for fixturing a master against a backplate. To avoid plating of the metallic clamping ring, the metal is coated with a suitable substantially non-conductive, substantially non-chipping, extremely thin material.