基于微晶碳化硅的电子植入物集成薄膜电阻阵列

Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society Pub Date : 1995-09-20 DOI:10.1109/IEMBS.1995.579818

S. Eck, A. Bolt, M. Schaldach

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引用次数: 0

摘要

采用等离子体增强化学气相沉积(PECVD)法制备了磷掺杂碳化硅薄膜，用于电疗电子植入物的集成电阻阵列。直流磁控溅射铝膜作为金属化层。根据沉积和退火参数的不同，非晶或微晶薄膜的电学性能可以在几个数量级上变化。对于500 ppm/K的容许温度系数(TCR)，目前最大板电阻(R/sub /s /)为2 K /spl Omega//sub /spl square//。碳化硅/铝系统的图案化是通过传统的5 /spl mu/ M光刻和蚀刻工艺完成的，其集成密度为40 M/spl Omega//mm/sup //。应用的薄膜技术证明比目前使用的厚膜工艺更可靠和可重复性。

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Integrated thin film resistor arrays for electronic implants based on microcrystalline silicon carbide

Phosphorus doped silicon carbide thin films are produced by plasma enhanced chemical vapor deposition (PECVD) to be used for integrated resistor arrays applied in electronic implants for electrotherapy. A DC magnetron sputtered aluminum film serves as the metallization layer. Depending on the deposition and annealing parameters the electrical properties of the amorphous or microcrystalline films can be varied over several orders of magnitude. With regard to the tolerable temperature coefficient (TCR) of 500 ppm/K the maximum sheet resistance (R/sub s/) is 2 k/spl Omega//sub /spl square// up to now. The patterning of the silicon carbide/aluminum system is done by a conventional 5 /spl mu/m-lithography and etch process resulting in an integration density of 40 M/spl Omega//mm/sup 2/. The applied thin film techniques prove to be more reliable and reproducible than the thick film processes used so far.

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Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society

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