C. Fieber, E. Martin, H. Chew, G. Hills, N. Selamoglu, S. Lytle
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引用次数: 0
Abstract
A two-level metal process for a fourth-generation 1.0- mu m CMOS technology has been developed which yields superior aluminum step coverages and high-quality dielectrics without introducing complicated processing sequences. The process is cost-effective since it includes traditional materials and high throughput operations and is readily extendable to three levels of metal. The process incorporates a highly smoothed BPSG for dielectric I and resist-etchback planarization of plasma-enhanced TEOS for dielectric II. Also featured are a tapered aluminum I profile and modified contact window and via etch profiles. Defect density and electromigration data predict excellent yield and reliability for this process.<>
开发了第四代1.0 μ m CMOS技术的两级金属工艺,该工艺无需引入复杂的加工程序,即可产生优越的铝台阶覆盖和高质量的介电体。该工艺具有成本效益,因为它包括传统材料和高通量操作,并且易于扩展到三层金属。该工艺结合了电介质I的高度平滑BPSG和电介质II的等离子体增强TEOS的电阻蚀刻平面化。还具有锥形铝I型型材和修改的接触窗口和通过蚀刻型材。缺陷密度和电迁移数据预测了该工艺的优良良率和可靠性。
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