Author_Institution :
Dept. of Electr. Eng., Wyoming Univ., Laramie, WY, USA
Abstract :
Intelligent systems require signal processing which can be done quickly and accurately. The commonly used digital approach has many advantages, but some disadvantages as well. Analog signal processing is in many cases much simpler, faster, and easier for performing parallel processing. In this paper a new accurate CMOS multiplier/divider circuit is presented. Contrary to previous solutions, which use the square law formula for MOS transistors operation, in the strong inversion mode, the multiplier/divider circuits employ MOS transistor characteristics in the subthreshold conduction mode. It is shown that the circuit generates very accurate results. With some modification, the basic circuit can also be used as a four-quadrant multiplier, which may operate for both positive and negative input signals. The circuit itself may have many applications such as multiplier, divider, signal squaring, square root calculations, frequency modulation, frequency doubling, etc. Most importantly it can be used for analog signal processing in many intelligent systems of industrial electronics
Keywords :
CMOS analogue integrated circuits; VLSI; analogue multipliers; artificial intelligence; dividing circuits; signal processing; CMOS multiplier/divider circuit; VLSI analog divider circuit; VLSI analog multiplier circuit; analog signal processing; digital approach; divider; frequency doubling; frequency modulation; industrial electronics; intelligent systems; multiplier; negative input signals; parallel processing; positive input signals; signal processing; signal squaring; square law formula; square root calculations; strong inversion mode; subthreshold conduction mode; Circuits; Frequency conversion; Frequency modulation; Industrial electronics; Intelligent systems; MOSFETs; Parallel processing; Signal processing; Subthreshold current; Very large scale integration;
