论文信息 - Differential-Mode/Common-Mode Feedforward Transconductor for Low-Voltage Gm-C filters

Differential-Mode/Common-Mode Feedforward Transconductor for Low-Voltage Gm-C filters

Low-voltage transconductor circuits suitable for Gm-C filter are proposed. The proposed structures were developed from a well-known Nauta's inverter-type class-AB transconductor to improve common-mode rejection without sacrificing extra power consumption. The improvement relies on feed-forwarding both common-mode and differential mode signals, making it power efficient because additionally power has not be wasted only for suppressing common-mode signal. The concept has been confirmed by comparison with simulation on I-V 5th-order Chebyshev lowpass filters constructed from the proposed transconductors in 0.18mum CMOS process. The proposed transconductors offer improvement on common-mode rejection by 50dB with 20% less current consumption while still preserving dynamic range.

Apisak Worapishet | Phanumas Khumsat | Theerachet Soorapanth | Klanarong Noulkaew

[1] J. Hughes,et al. A CMOS gyrator low-IF filter for a dual-mode Bluetooth/ZigBee transceiver , 2005, IEEE Journal of Solid-State Circuits.

[2] Bram Nauta,et al. A CMOS transconductance-C filter technique for very high frequencies , 1992 .

[3] Bram Nauta,et al. Linear CMOS transconductance element for VHF filters , 1989 .

[4] A.A. Abidi,et al. A broad-band tunable CMOS channel-select filter for a low-IF wireless receiver , 1999, IEEE Journal of Solid-State Circuits.

[5] José Miguel Rocha-Pérez,et al. A 60-mW 200-MHz continuous-time seventh-order linear phase filter with on-chip automatic tuning system , 2003 .

[6] Andrea Baschirotto,et al. Low-voltage balanced transconductor with high input common-mode rejection , 1994 .