Detail publikace

0.5-V bulk-driven fully differential current conveyor

Originální název

0.5-V bulk-driven fully differential current conveyor

Anglický název

0.5-V bulk-driven fully differential current conveyor

Jazyk

en

Originální abstrakt

This paper presents a new low-voltage supply and low-power consumption bulk-driven fully differential current conveyor (BD-FDCCII) which is suitable for low-voltage signal processing applications. The bulk-driven MOS technique is used to achieve a low-voltage supply as low as a 0.5V, also, a rail-to-rail input voltage swing. As an example application, a voltage-mode biquadratic filter using BD-FDCCII is presented. The proposed BD-FDCCII is simulated by PSPICE simulators using TSMC 0.18 um n-well CMOS technology.

Anglický abstrakt

This paper presents a new low-voltage supply and low-power consumption bulk-driven fully differential current conveyor (BD-FDCCII) which is suitable for low-voltage signal processing applications. The bulk-driven MOS technique is used to achieve a low-voltage supply as low as a 0.5V, also, a rail-to-rail input voltage swing. As an example application, a voltage-mode biquadratic filter using BD-FDCCII is presented. The proposed BD-FDCCII is simulated by PSPICE simulators using TSMC 0.18 um n-well CMOS technology.

BibTex


@inproceedings{BUT112185,
  author="Montree {Kumngern} and Fabian {Khateb}",
  title="0.5-V bulk-driven fully differential current conveyor",
  annote="This paper presents a new low-voltage supply and low-power consumption bulk-driven fully differential current conveyor (BD-FDCCII) which is suitable for low-voltage signal processing applications. The bulk-driven MOS technique is used to achieve a low-voltage supply as low as a 0.5V, also, a rail-to-rail input voltage swing. As an example application, a voltage-mode biquadratic filter using BD-FDCCII is presented. The proposed BD-FDCCII is simulated by PSPICE simulators using TSMC 0.18 um n-well CMOS technology.",
  address="IEEE",
  booktitle="2014 IEEE Symposium on Computer Applications and Industrial Electronics (ISCAIE)",
  chapter="112185",
  doi="10.1109/ISCAIE.2014.7010234",
  howpublished="print",
  institution="IEEE",
  year="2014",
  month="april",
  pages="184--188",
  publisher="IEEE",
  type="conference paper"
}