The present invention provides a system that enables the use of electrophoretic resists in the microfabrication industry for the production of microelectronic devices and is of sufficiently high quality to be used as a replacement for, or supplement to, current photoresist deposition technology. This system enables the application of electrophoretic resists in automated equipment that meets the standards for cleanliness and production throughput desired by the microelectronic fabrication industry. The system, apparatus and method, for providing electrophoretic resist ("EPR") layers on microelectronic workpieces for the microfabrication of microelectronic devices comprises a deposition station for receiving a microelectronic workpiece and depositing a layer of electrophoretic photoresist (EPR) thereon, a workpiece handling apparatus, and a control unit coupled to the workpiece handling apparatus and the deposition station for coordinating the processing of the workpiece in accordance with a predetermined sequence and set of processing parameters.