Picosecond pulse generation on CMOS: Design beyond transistor limits

2009 IEEE Radar Conference Pub Date : 2009-05-04 DOI:10.1109/RADAR.2009.4977090
Wooram Lee, F. Amoozegar, E. Afshari
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引用次数: 5

Abstract

Nonlinear transmission media can be used for high amplitude, narrow pulse generation. We developed the theory of pulse generation in one- and two-dimensional transmission lattices. We used a conventional CMOS process to fabricate these lattices. Using these structures, it is possible to generate signals with a bandwidth of more than the cut-off frequency of the fastest transistor on the same process. We showed a 2-D nonlinear lattice that can generate pulses as narrow as 1psec with an amplitude of more than 3V by using nonlinear constructive interference in a conventional 130nm CMOS process.
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CMOS上皮秒脉冲产生:超越晶体管限制的设计
非线性传输介质可用于高振幅、窄脉冲的产生。我们发展了在一维和二维传输晶格中脉冲产生的理论。我们使用传统的CMOS工艺来制造这些晶格。使用这些结构,在相同的过程中,有可能产生带宽超过最快晶体管截止频率的信号。我们展示了一个二维非线性晶格,该晶格可以在传统的130nm CMOS工艺中使用非线性结构干涉产生窄至1psec的脉冲,振幅超过3V。
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2009 IEEE Radar Conference
2009 IEEE Radar Conference
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