Affiliations: Microelectronics Research Laboratory, Urmia University, Urmia, Iran
Note: [] Corresponding author. Mohammad Tohidi, Microelectronics Research Laboratory, Urmia University, Urmia, Iran. E-mails: m.tohidi.urmia@gmail.com; a.abolhasany@gmail.com (A. Abolhasani); A.khoei@urmia.ac.ir (A. Khoei); Kh.hadidi@urmia.ac.ir (K. Hadidi).
Abstract: In this article, an analog fully programmable membership function generator (MFG) is presented. It is capable of generating Gaussian, Triangular and Trapezoidal shapes as well as S or Z shapes. For omitting noise disturbances, differential structures are utilized in input and output stages which are in voltage mode and current mode, respectively. In contrast with conventional MFGs which are controlled digitally or by mixed signal approaches, this structure is a fully programmable analog MFG. It is capable of modifying slope, position and height of output's current. The most distinguishing features of this MFG are its capability of generating ultra-high speed outputs reaching speeds as high as 200 MHz and consuming a very low amount of power. Due to the simple structure of this MFG, it consumes a small active area at the size of 20 μm × 30 μm. It is constructed of only 16 transistors. This MFG has been designed in 0.35 μm CMOS technology. The simulations have been done with Hspice using TSMC, BSIM3 (V3.1) model.
Keywords: Analog fully programmable MFG, ultra high speed MFG, low power MFG, differential structure
