Title :
Microelectronic packaging for retinal prostheses
Author :
Rodger, Damien C. ; Tai, Yu-Chong
Author_Institution :
California Inst. of Technol., Pasadena, CA, USA
Abstract :
An innovative parylene-based high-density chip-level integrated interconnect (CL-I2) packaging system for retinal implants id discussed. The implications of this CL-I2 technology for retinal prosthesis packaging effort are far-reaching. This technology obviates the need for a technician to create electrical and mechanical connections one by one. Instead, the technology is limited only by standard photolithography and standard microfabrication techniques, providing the capability for a reduction of an order of magnitude or more in the center-to-center pad distances that can be accommodated in the process. High-density electrode arrays are thereby feasible, because the fabrication process places no limit on the number of output pads that can reasonably be connected to the array.
Keywords :
arrays; biomedical electrodes; eye; microelectrodes; micromechanical devices; packaging; photolithography; polymers; prosthetics; high-density electrode arrays; innovative parylene-based high-density chip-level integrated interconnect packaging system; microelectronic packaging; microfabrication; photolithography; retinal implants; retinal prostheses; Biomimetics; Circuit testing; Electronics packaging; Foundries; Implants; Integrated circuit interconnections; Microelectronics; Prosthetics; Radio frequency; Retina;
Journal_Title :
Engineering in Medicine and Biology Magazine, IEEE
DOI :
10.1109/MEMB.2005.1511500
