In this paper a novel linear transconductor topology is proposed, where class-AB behavior based on adaptive biasing is exploited to improve the linear range. The adaptive biasing circuit is based on the Winner-Take-All topology already used for class-AB OTAs, and optimized to improve the linearity, and the proposed transconductor features a gain control input for tunability. The transconductor provides a gain of 43 μS while consuming 70 μW. The linear range (1% variation of the dc transconductance gain) is 470 mVpp, about 4.5 times larger than for the corresponding class-A cell. Total harmonic distortion is improved by about 15 dB, and good results in terms of linearity and noise are reported with respect to the state-of-the-art. Simulations of a Gm-C biquad filter based on the proposed transconductor are also reported to validate the design.
A class-AB linear transconductor with enhanced linearity / Bocciarelli, Cristian; Centurelli, Francesco; Monsurrò, Pietro; Spinogatti, Valerio; Trifiletti, Alessandro. - In: AEÜ. INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS. - ISSN 1434-8411. - 140:(2021), pp. 1-8. [10.1016/j.aeue.2021.153955]
A class-AB linear transconductor with enhanced linearity
Bocciarelli, Cristian;Centurelli, Francesco;Monsurrò, Pietro;Spinogatti, Valerio;Trifiletti, Alessandro
2021
Abstract
In this paper a novel linear transconductor topology is proposed, where class-AB behavior based on adaptive biasing is exploited to improve the linear range. The adaptive biasing circuit is based on the Winner-Take-All topology already used for class-AB OTAs, and optimized to improve the linearity, and the proposed transconductor features a gain control input for tunability. The transconductor provides a gain of 43 μS while consuming 70 μW. The linear range (1% variation of the dc transconductance gain) is 470 mVpp, about 4.5 times larger than for the corresponding class-A cell. Total harmonic distortion is improved by about 15 dB, and good results in terms of linearity and noise are reported with respect to the state-of-the-art. Simulations of a Gm-C biquad filter based on the proposed transconductor are also reported to validate the design.| File | Dimensione | Formato | |
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