Author(s)

Ali Dadashi, Yngvar Berg, Omid Mirmotahari

Department of Informatics, University of Oslo, Oslo, Norway.

In this paper, a new principle for an adaptive line driver using Fuzzy logic is presented. This type of line driver can adapt its output impedance and gain, automatically to the applied load using a fuzzy logic controller (FLC). This results in automatically corrected output impedance for different cables with terminations. Also, the line driver output impedance and gain become insensitive to process and line variations. As an example, a line driver for ADSL application has been designed. The circuit operates from a 3.3 v in a 0.35 um standard CMOS technology. The power consumption of FLC is about 1 mW. The circuit dissipates 106 mW and exhibits a -62 dB THD for a 3.2-Vpp signal at 5 MHz across a 75 ohms Load. It has a relatively high -3 dB bandwidth (240 MHz) with good phase margin of about 67 degrees in a 10 pF load capacitor.

Fuzzy Logic Controller (FLC), ADSL Modem, Adaptive Line Driver, Folded Cascode Power Supply Noise, Class A/B

Dadashi, A. , Berg, Y. and Mirmotahari, O. (2016) A New Fully Differential Adaptive CMOS Line Driver Using Fuzzy Controller Suitable for ADSL Modems. Circuits and Systems, 7, 1307-1323. doi: 10.4236/cs.2016.78114.