Abstract
In this paper, a new digitally controlled linear-in-dB CMOS variable gain amplifier is proposed. The circuit employs the proposed novel approach in achieving a wide-range true-exponential transfer function e2X using a traditional pseudo-exponential amplifier followed by a variable gain stage, to expand the output dynamic range. A single digitally controlled variable resistor is used to tune the circuit accordingly by controlling X with a digital word. The result is a digitally controlled data conversion that yields a new type of non-linear digital-to-analog converter. Finally, a 4-bit converter is implemented in a TSMC 0.18 μm CMOS technology and displays a gain from about −21 dB to 36 dB in steps of 3.89 dB with an output linear error in [−0.66,0.45] dB and a static power consumption of 2.34 mW.
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