Configurable CMOS multiplier/divider circuits for analog VLSI |
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| Authors: | Mohammed Ismail Robert Brannen Shigetaka Takagi Nobuo Fujii Nabil I. Khachab Ronny Khan Oddvar Aaserud |
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| Affiliation: | (1) Department of Electrical Engineering, The Ohio State University, 43210 Columbus, OH, USA;(2) Department of Physical Electronics, Tokyo Institute of Technology, 2-12-1 Ookayama, Meruro-Ku, 152 Tokyo, Japan;(3) Electrical Engineering, Kuwait University, 13060 Safat, Kuwait;(4) Department of Physical Electronics, Norwegian Institute of Technology (NTH), University of Trondheim, N-7034 Trondheim, Norway |
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| Abstract: | The design of five simple CMOS opamp based multipler/divider circuits is presented. Each two opamp and six MOSFET transistor circuit simultaneously achieves four-quadrant multiplication and division. Applications of the new circuits in analog signal processing and neural networks are discussed. The multiplier/divider circuits are all insensitive to MOS intrinsic parasitic capacitances. They do, however, exhibit different sensitivities to opamp finite unity-gain bandwidth. These sensitivities may be mitigated using the configurability property of the circuits. Finally experimental results are provided to support some of the theoretical claims. |
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