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1887

access icon free Switching architecture for CMOS exponential function generators eliminating squarer/multiplier circuits

© The Institution of Engineering and Technology
Received 03/12/2013, Published
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A switching architecture for exponential function generators in submicron CMOS technology is proposed. The architecture is based on second-order rational approximation of exponential functions and can be realised using MOS transistors in the saturation regime. An implementation eliminating complex squarer/multiplier circuits is presented in 0.13 μm CMOS technology. Simulation results show a dB-linear range of 46 dB with less than ± 0.5 dB linear error while dissipating a maximum of 0.45 mW from a 1.2 V power supply.

Inspec keywords: multiplying circuits; switching circuits; MOSFET; CMOS integrated circuits; function generators

Other keywords: switching architecture; size 0.13 mum; saturation regime; second-order rational approximation; MOS transistors; voltage 1.2 V; CMOS exponential function generators; power 0.45 mW; squarer/multiplier circuits

Subjects: Function generators; CMOS integrated circuits; Insulated gate field effect transistors

References

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      • 5. Baker, G.A., Graves-Morris, P.R.: ‘Padé approximants’ (Cambridge University Press, Cambridge, MA, 1984).
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2013.3988
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