Title :
A 1.1 GHz Fifth Order Active-LC Butterworth Type Equalizing Filter
Author :
Dhanasekaran, Vijay ; Gambhir, Manisha ; Silva-Martinez, Jose ; Sánchez-Sinencio, Edgar
Author_Institution :
Texas A&M Univ., College Station
Abstract :
This paper describes architectural and design considerations for low power, GHz range wideband low-pass active filters. A series LC resonator based biquad is proposed and its power efficiency is shown to be over 7 times better than an equivalent Gm-C biquad. Reduced number of active elements and readily available bandpass and low-pass signals make this topology particularly suitable for efficient realization of equalizing functions. Also demonstrated is a common-mode feedback scheme that allows for a stable, high accuracy common-mode control with loop bandwidth which can exceed twice the filter´s bandwidth. A fifth order active-LC Butterworth filter prototype is fabricated in a standard 0.18 CMOS technology. It provides a bandwidth of 1.1 GHz and features equalization gain programmable over a 0-23 dB range. It is experimentally verified to achieve 47 dB SNR and 48 dB IM3 with 250 mVpp swing while consuming 72 mW of power.
Keywords :
Butterworth filters; CMOS integrated circuits; UHF filters; active filters; equalisers; low-pass filters; CMOS technology; features equalization gain programmable; fifth order active-LC butterworth type equalizing filter; frequency 1.1 GHz; gain 0 dB to 23 dB; high accuracy common-mode control; power 72 mW; series LC resonator based biquad; wideband low-pass active filters; Active filters; Band pass filters; Bandwidth; CMOS technology; Circuits; Dynamic range; Equalizers; Prototypes; Resonator filters; Wideband; Active LC filter; Gm-C filter; OTA-C filter; common-mode feedback; equalizer; programmable boost; wideband continuous time filter;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2007.907170
