Title :
A 2.5-V active low-pass filter using all-n-p-n Gilbert cells with a 1-Vp-p range
Author :
Koyama, Mikio ; Arai, Tadashi ; Tanimoto, Hiroshi ; Yoshida, Yoshihiro
Author_Institution :
Inf. & Commun. Syst. Lab., Toshiba Corp., Kawasaki, Japan
fDate :
12/1/1993 12:00:00 AM
Abstract :
This paper describes the design and measured results of an all-n-p-n low-voltage (2.5 V), low-current (1 mA), large-swing (1 Vp-p), low-distortion (-53 dB, 1 Vp-p) active filter using a conventional bipolar process. The transconductors for the filter are composed of Gilbert cell transconductors. Distortion has been improved by feedback circuits without increasing the supply voltage and without using p-n-p transistors. The filter is a gyrator-capacitor type third-order Butterworth low-pass filter with a nominal cutoff frequency of 192 kHz. A voltage scaling technique has been applied directly to the gyrator-capacitor filter. This has improved the signal-to-noise ratio by 3 dB. Simulation results indicated that a fast operation up to tens of MHz is possible with a standard bipolar process, as the signal path is composed only of n-p-n transistors
Keywords :
active filters; bipolar integrated circuits; feedback; linear integrated circuits; low-pass filters; 1 mA; 192 kHz; 2.5 V; Gilbert cell transconductors; active low-pass filter; bipolar process; feedback circuits; gyrator-capacitor type; low-current operation; low-distortion type; low-voltage operation; monolithic type; n-p-n Gilbert cells; n-p-n transistors; third-order Butterworth filters; voltage scaling technique; Active filters; Circuit simulation; Cutoff frequency; Distortion measurement; Feedback circuits; Low pass filters; Signal processing; Signal to noise ratio; Transconductors; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
