A four quadrant analog multiplier based on a novel CMOS linear current divider

2009 Ph.D. Research in Microelectronics and Electronics Pub Date : 2009-07-12 DOI:10.1109/RME.2009.5201326
M. Dei, N. Nizza, G. M. Lazzerini, P. Bruschi, M. Piotto
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引用次数: 10

Abstract

An analog, Gilbert-like CMOS multiplier, based on a novel linear current divider, is described. The divider uses a cascade of two differential pairs to produce a linear dependence between the tail current and the two output currents. A numerical algorithm has been implemented to find the optimum sizing of the active devices in order to compensate for the deviation from the ideal MOSFET square law. The results of low frequency measurements performed on a prototype, designed with CMOS devices from the STMicroelectronic process BCD6s, are shown.
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基于新型CMOS线性分流器的四象限模拟乘法器
描述了一种基于新型线性分流器的类似吉尔伯特式CMOS乘法器。分压器使用两个差分对的级联来产生尾电流和两个输出电流之间的线性依赖关系。为了补偿与理想MOSFET平方定律的偏差,采用数值算法求出了有源器件的最佳尺寸。本文展示了在采用意法半导体工艺BCD6s的CMOS器件设计的原型上进行的低频测量结果。
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2009 Ph.D. Research in Microelectronics and Electronics
2009 Ph.D. Research in Microelectronics and Electronics
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