A simple on-chip automatic frequency tuning circuit is proposed. The tuning circuit is modified from volt-age-controlled filter (VCF) frequency tuning circuit. We utilize an operational transconductance amplifier and a capacitor to from a single-time constant (STC) circuit which can produce a controllable delay time clock to tune the frequency of the filter. It can efficiently reduce the deviations in the 3 dB bandwidth from the variations of PVT (Process, Voltage and Temperature). The design of the STC circuit is simpler than VCF and it has less chip area. The chip has been implanted using TCMC 0.35 μm CMOS technology and the power consumption is less than 9.05 mW
In this paper, we present one approach in design of self-tuning all-pass, band-pass, low-pass and no...
The implementation of a continuous-time filter (CTF) useful for audio frequency applications is pres...
Integrated high-Q continuous-time filters require adaptive tuning circuits that will correct the fil...
A CMOS circuit applicable to on-chip automatic frequency tuning system for integrated continuous-tim...
A new frequency tuning scheme and a transconductor with a wide tuning range and low harmonic distort...
Abstract—An automatic RC time constant tuning scheme is proposed for high linearity continuous-time-...
122 + xi pg.On-chip continuous time filters are essential for many applications. The transconductor-...
A novel approach for the automatic frequency tuning of Continuous Time Filters is presented. This a...
Graduation date: 2004A tuning technique which tunes the continuous time filter very accurately is pr...
The circuit configuration and principle of continuous-time low pass filter is discussed. The frequen...
Abstruct-This paper presents a third-order elliptic low-pass continu-ous-time filter with a 4-MHz cu...
In integrated continuous times (C.T.) filters, automatic tuning is very important, because the filte...
A VHF transconductance-C filter technique with automatic tuning of the quality factors and the cutof...
A 2.3V CMOS 80-200MHz 4th-order continuous-time 0.05o equiripple linear phase filter with an automat...
I n this paper an accurate automatic tuning circuit, for tuning the cut-off frequency and Q-factor o...
In this paper, we present one approach in design of self-tuning all-pass, band-pass, low-pass and no...
The implementation of a continuous-time filter (CTF) useful for audio frequency applications is pres...
Integrated high-Q continuous-time filters require adaptive tuning circuits that will correct the fil...
A CMOS circuit applicable to on-chip automatic frequency tuning system for integrated continuous-tim...
A new frequency tuning scheme and a transconductor with a wide tuning range and low harmonic distort...
Abstract—An automatic RC time constant tuning scheme is proposed for high linearity continuous-time-...
122 + xi pg.On-chip continuous time filters are essential for many applications. The transconductor-...
A novel approach for the automatic frequency tuning of Continuous Time Filters is presented. This a...
Graduation date: 2004A tuning technique which tunes the continuous time filter very accurately is pr...
The circuit configuration and principle of continuous-time low pass filter is discussed. The frequen...
Abstruct-This paper presents a third-order elliptic low-pass continu-ous-time filter with a 4-MHz cu...
In integrated continuous times (C.T.) filters, automatic tuning is very important, because the filte...
A VHF transconductance-C filter technique with automatic tuning of the quality factors and the cutof...
A 2.3V CMOS 80-200MHz 4th-order continuous-time 0.05o equiripple linear phase filter with an automat...
I n this paper an accurate automatic tuning circuit, for tuning the cut-off frequency and Q-factor o...
In this paper, we present one approach in design of self-tuning all-pass, band-pass, low-pass and no...
The implementation of a continuous-time filter (CTF) useful for audio frequency applications is pres...
Integrated high-Q continuous-time filters require adaptive tuning circuits that will correct the fil...