This paper deals with the proposal of a new topology for a gm-C continuous time filter which allows the adjustment and tuning of its characteristic parameters (ωO and Q) in an independent way (without cross-tuning), thereby extending the Q range of the filter for a particular ωO value. Additionally a comparison of three different Q-tuning algorithms is presented. It is shown that an LMS-based Q-control strategy allows to overcome the intrinsic dependence between the Q and ωO tuning loops. The combination of both the proposed filter topology and the selected control loop algorithms results in an enhanced transient performance as well as an improvement in terms of cross-detuning
Abstract- A method to compensate the Excess Loop Delay (ELD) in CT I:.A modulators using Gm-C loop f...
Part 16: Optimization in ElectronicsInternational audienceAn optimization-based methodology for desi...
A mixed-signal approach for tuning the bandwidth of some continuous-time low-pass filters is present...
This paper deals with the proposal of a new topology for a gm-C continuous time filter which allows ...
Abstract—This paper deals with the proposal of a new topology for a gm-C continuous time filter whic...
This paper deals with the proposal of a new topology for a gm-C continuous time filter which allows ...
Integrated high-Q continuous-time filters require adaptive tuning circuits that will correct the fil...
Abstract—A Wide Tuning Range Gm-C Continuous-Time Analog Filter is a CMOS operation nal transconduct...
A novel approach for the automatic frequency tuning of Continuous Time Filters is presented. This a...
122 + xi pg.On-chip continuous time filters are essential for many applications. The transconductor-...
A VHF transconductance-C filter technique with automatic tuning of the quality factors and the cutof...
Due to the character of the original source materials and the nature of batch digitization, quality ...
The circuit configuration and principle of continuous-time low pass filter is discussed. The frequen...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
A 10.7-MHz fully balanced, high-Q, wide-dynamic-range current-tunable Gm-C bandpass filter is pre-se...
Abstract- A method to compensate the Excess Loop Delay (ELD) in CT I:.A modulators using Gm-C loop f...
Part 16: Optimization in ElectronicsInternational audienceAn optimization-based methodology for desi...
A mixed-signal approach for tuning the bandwidth of some continuous-time low-pass filters is present...
This paper deals with the proposal of a new topology for a gm-C continuous time filter which allows ...
Abstract—This paper deals with the proposal of a new topology for a gm-C continuous time filter whic...
This paper deals with the proposal of a new topology for a gm-C continuous time filter which allows ...
Integrated high-Q continuous-time filters require adaptive tuning circuits that will correct the fil...
Abstract—A Wide Tuning Range Gm-C Continuous-Time Analog Filter is a CMOS operation nal transconduct...
A novel approach for the automatic frequency tuning of Continuous Time Filters is presented. This a...
122 + xi pg.On-chip continuous time filters are essential for many applications. The transconductor-...
A VHF transconductance-C filter technique with automatic tuning of the quality factors and the cutof...
Due to the character of the original source materials and the nature of batch digitization, quality ...
The circuit configuration and principle of continuous-time low pass filter is discussed. The frequen...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
A 10.7-MHz fully balanced, high-Q, wide-dynamic-range current-tunable Gm-C bandpass filter is pre-se...
Abstract- A method to compensate the Excess Loop Delay (ELD) in CT I:.A modulators using Gm-C loop f...
Part 16: Optimization in ElectronicsInternational audienceAn optimization-based methodology for desi...
A mixed-signal approach for tuning the bandwidth of some continuous-time low-pass filters is present...