A cost effective embedded DRAM integration for high density memory and high performance logic using 0.15 μm technology node and beyond
In this paper, a 0.15 mu m embedded DRAM technology is described which provides a cost-effective means of delivering high bandwidth, low power consumption, noise immunity, and a small foot print chip. The key technologies for high performance transistors are dual thickness gate oxide, dual work-func...
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| Veröffentlicht in: | IEEE transactions on electron devices 2000-07, Vol.47 (7), p.1499-1506 |
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| container_title | IEEE transactions on electron devices |
| container_volume | 47 |
| creator | Ha, Daewon Shin, Dongwon Koh, Gwan-Hyeob Lee, Jaegu Lee, Sanghyeon Ahn, Yong-Seok Jeong, Hongsik Chung, Taeyoung Kim, Kinam |
| description | In this paper, a 0.15 mu m embedded DRAM technology is described which provides a cost-effective means of delivering high bandwidth, low power consumption, noise immunity, and a small foot print chip. The key technologies for high performance transistors are dual thickness gate oxide, dual work-function gate with Si sub(3)N sub(4) capped Ti polycide, and selective Co silicidation of source/drain diffusion by Si sub(3)N sub(4) liner. In order to increase the memory cell efficiency, all memory cell contacts in DRAM arrays are formed by self-aligned contact (SAC) etching. Low temperature Al sub(2)O sub(3) stacked cell capacitor with hemispherical grain (HSG) makes it possible to realize the sufficient storage capacitance in DRAM arrays and the high performance transistor. The CMP planarization of interlayer dielectric enlarges the depth of focus for lithography and enables the multilevel metallization. These integration technologies can be fairly extendible to the future embedded DRAM in 0.13 mu m technology node and beyond. |
| doi_str_mv | 10.1109/16.848299 |
| format | Article |
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| title | A cost effective embedded DRAM integration for high density memory and high performance logic using 0.15 μm technology node and beyond |
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