Title :
Accurate dB-Linear Variable Gain Amplifier With Gain Error Compensation
Author :
Inyoung Choi ; Heesong Seo ; Bumman Kim
Author_Institution :
Dept. of Electr. Eng. & the Div. of Inf. Technol. Convergence Eng., Pohang Univ. of Sci. & Technol. (POSTECH), Pohang, South Korea
Abstract :
This paper describes use of a novel exponential approximation for designing dB-linear variable gain amplifiers (VGAs). The exponential function is accurately generated using a simple error-compensation technique. The dB-linear gain is controlled linearly by the gate voltage, resulting in a simple and robust VGA. The proposed dB-linear VGA fabricated in a 65-nm CMOS process achieves a total variable gain range of 76 dB and dB-linear range greater than 50 dB with ±0.5-dB gain error. Under a 1.2-V supply voltage, the current consumption of the VGA is 1.8 mA and that of the output buffer is 1.4 mA. The input-referred in-band noise density is 3.5 nV/√{Hz} and the in-band OIP3 is 11.5 dBm. Due to the very simple circuit topology, the total active area of the VGA and the output buffer is extremely small, 0.01 mm2.
Keywords :
CMOS analogue integrated circuits; amplifiers; approximation theory; error compensation; CMOS process; VGA; circuit topology; current 1.4 mA; current 1.8 mA; dB-linear variable gain amplifier; exponential approximation; gain 76 dB; gain error compensation; gate voltage; in-band OIP3; input-referred in-band noise density; size 65 nm; voltage 1.2 V; Approximation error; Equations; Error compensation; Gain; MOS devices; Voltage control; Baseband amplifier; dB-linear; exponential approximation; gain error compensation; linear-in-dB; variable gain amplifier (VGA);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2012.2227606
