Title :
A 147-dB dynamic range electronic attenuator for audiometric applications with on-chip 1-W power amplifier
Author :
Brigati, Simona ; Francesconi, Fabrizio ; Poletti, Matteo ; Fumagalli, Daniela ; Grassi, Guido ; Malcovati, Piero
Author_Institution :
Micronova Sistemi Srl, Pavia, Italy
fDate :
7/1/2001 12:00:00 AM
Abstract :
This paper presents an integrated circuit for audiometric applications, which includes a linearly controlled exponential attenuator with 147 dB of dynamic range and a power amplifier capable of driving 8 Vpp on a 7-Ω resistive load. The required attenuation is achieved in the current domain by exploiting the exponential transfer characteristic of bipolar transistors. In order to achieve a temperature-independent attenuation, in spite of the temperature-dependent bipolar transistor IC-VBE relationship, we produce on-chip an attenuation control voltage proportional to the absolute temperature. The 24-mm2 chip, fabricated in a 2-μm high-voltage CMOS process, achieves the required dynamic range with 80 dB of spurious-free dynamic range (excluding harmonics) and -57 dB of total harmonic distortion, consuming 33 mA from a ±5-V power supply
Keywords :
BiCMOS analogue integrated circuits; attenuators; audio systems; audio-frequency amplifiers; biomedical electronics; hearing; power amplifiers; power integrated circuits; -5 V; 1 W; 2 micron; 33 mA; 5 V; attenuation control voltage; audiometric applications; bipolar transistors; dynamic range; electronic attenuator; exponential transfer characteristic; high-voltage CMOS process; integrated circuit; linearly controlled exponential attenuator; onchip power amplifier; temperature-independent attenuation; Application specific integrated circuits; Attenuation; Attenuators; Bipolar transistors; CMOS process; Dynamic range; Power amplifiers; Proportional control; Temperature control; Voltage control;
Journal_Title :
Solid-State Circuits, IEEE Journal of
