Title :
Compensation of frequency dependent parasitic resistance in a CMOS linvill negative inductor
Author :
Kshatri, Varun S. ; Covington, John M. C. ; Weldon, Thomas P. ; Adams, Ryan S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of North Carolina at Charlotte, Charlotte, NC, USA
Abstract :
This paper presents an effective approach for reducing parasitic resistance of a CMOS negative inductor with a single compensating resistor. A compensating resistor is used to mitigate the effect of parasitic resistance with quadratic frequency dependence. The undesired parasitic effect is induced by the inevitable finite drain-source resistance of the input CMOS transistor of the most common Linvill negative inductor configuration. In particular, a two-transistor Linvill negative impedance inverter is considered. Theoretical analysis and circuit simulations show that the parasitic CMOS drain-source resistance leads to this undesired quadratic frequency dependency, and the proposed simple compensation circuit is effective. Measured results are given for a prototype CMOS circuit demonstrating the proposed compensation method.
Keywords :
CMOS integrated circuits; compensation; inductors; CMOS Linvill negative inductor configuration; frequency dependent parasitic resistance compensation; inevitable finite drain-source resistance; input CMOS transistor; parasitic CMOS drain-source resistance; parasitic resistance reduction; quadratic frequency dependence; single compensating resistor; two-transistor Linvill negative impedance inverter; CMOS integrated circuits; Frequency dependence; Impedance; Inductors; Resistance; Solids; Transistors; CMOS; integrated circuit; negative impedance inverter; negative inductance; non-Foster circuit; quadratic frequency dependence;
Conference_Titel :
SOUTHEASTCON 2014, IEEE
Conference_Location :
Lexington, KY
DOI :
10.1109/SECON.2014.6950730
