The switched-resistor (S-R) approach is becoming more and more popular among integrated circuits designers because it allows the implementation of very high equivalent resistances in CMOS circuits. When using this technique, the value of a reference poly resistor is multiplied by a factor dependent on the duty cycle of the clock signal. To achieve resistance multiplication factors higher than 100, the value of the duty cycle has to be reduced below 0.01, but in this case the effects of parasitic components are not negligible anymore and the value of the equivalent resistance tends to saturate at a maximum value. In this paper, we present a distributed switchedresistor approach that aims to strongly mitigate the effect of parasitic capacitances on the value of the equivalent resistance even when exploiting very small values for the duty cycle, thus allowing resistance multiplication factors up to a few thousands. As a validation of this approach, we consider the mplementation of a high Q biquad filter for neural recording applications and compare the conventional S-R technique against the proposed distributed S-R approach in terms of the maximum achievable Q factor.
Distributed switched-resistor approach for high-Q biquad filters / Centurelli, Francesco; Fava, Alessandro; Scotti, Giuseppe; Trifiletti, Alessandro. - In: AEÜ. INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS. - ISSN 1434-8411. - 138:(2021). [10.1016/j.aeue.2021.153894]
Distributed switched-resistor approach for high-Q biquad filters
Centurelli, Francesco;Fava, Alessandro;Scotti, Giuseppe;Trifiletti, Alessandro
2021
Abstract
The switched-resistor (S-R) approach is becoming more and more popular among integrated circuits designers because it allows the implementation of very high equivalent resistances in CMOS circuits. When using this technique, the value of a reference poly resistor is multiplied by a factor dependent on the duty cycle of the clock signal. To achieve resistance multiplication factors higher than 100, the value of the duty cycle has to be reduced below 0.01, but in this case the effects of parasitic components are not negligible anymore and the value of the equivalent resistance tends to saturate at a maximum value. In this paper, we present a distributed switchedresistor approach that aims to strongly mitigate the effect of parasitic capacitances on the value of the equivalent resistance even when exploiting very small values for the duty cycle, thus allowing resistance multiplication factors up to a few thousands. As a validation of this approach, we consider the mplementation of a high Q biquad filter for neural recording applications and compare the conventional S-R technique against the proposed distributed S-R approach in terms of the maximum achievable Q factor.File | Dimensione | Formato | |
---|---|---|---|
Centurelli_Distributed_2021.pdf
solo gestori archivio
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Tutti i diritti riservati (All rights reserved)
Dimensione
2.99 MB
Formato
Adobe PDF
|
2.99 MB | Adobe PDF | Contatta l'autore |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.