M. Nezhad-Ahmadi, B. Biglarbegian, H. Mirzaei, Safieddin Safavi-Naieini
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引用次数: 3
摘要
提出了一种可使微/毫米波稳定CMOS放大器增益最大化的最佳栅极负载级联码拓扑结构。通过在级联晶体管栅极中增加一段传输线,选择合适的含偏置的匹配电路,利用合适的传输线结构,可以提高CMOS放大器的每级增益,实现优化设计。基于该拓扑结构,设计并制作了一个0.18 μ m CMOS技术的28 GHz放大器。采用0.18 μ m CMOS技术,在28 GHz频率下测量了两级级联码的增益约为16 dB。
An Optimum Cascode Topology for High Gain Micro/Millimeter Wave CMOS Amplifier Design
An optimum gate-loaded cascode topology for maximizing the gain of a stable CMOS amplifier in micro/millimeter wave band is presented. By adding a piece of transmission line in the gate of cascode transistor, choosing an appropriate matching circuit that includes biasing, and exploiting the proper transmission line structure the gain per stage of CMOS amplifier can be increased and an optimum design can be achieved. Based on this topology a 28 GHz amplifier in 0.18 mum CMOS technology has been designed and fabricated. Gain of about 16 dB was measured for a two-stage cascode at 28 GHz in a 0.18 mum CMOS technology.
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