Detail publikace

Bulk-driven current mirrors for low power applications

Originální název

Bulk-driven current mirrors for low power applications

Anglický název

Bulk-driven current mirrors for low power applications

Jazyk

en

Originální abstrakt

As the feature size of modern CMOS processes scaling down, the maximum allowable power supply continuously decreases, but the threshold voltage does not scale down with the same rate, Which poses a great challenge to CMOS circuit design. Some circuit structures become obsolete for modern CMOS processes. In this paper, different types of Bulk-Driven Current Mirrors are presented and compared with the conventional Gate-Driven Current Mirrors. The simulations of the current mirror circuits were carried out by the Pspice simulator.

Anglický abstrakt

As the feature size of modern CMOS processes scaling down, the maximum allowable power supply continuously decreases, but the threshold voltage does not scale down with the same rate, Which poses a great challenge to CMOS circuit design. Some circuit structures become obsolete for modern CMOS processes. In this paper, different types of Bulk-Driven Current Mirrors are presented and compared with the conventional Gate-Driven Current Mirrors. The simulations of the current mirror circuits were carried out by the Pspice simulator.

BibTex


@inproceedings{BUT9591,
  author="Fabian {Khateb} and Vladislav {Musil}",
  title="Bulk-driven current mirrors for low power applications",
  annote="As the feature size of modern CMOS processes scaling down, the maximum allowable power supply continuously decreases, but the threshold voltage does not scale down with the same rate, Which poses a great challenge to CMOS circuit design. Some circuit structures become obsolete for modern CMOS processes. In this paper, different types of Bulk-Driven Current Mirrors are presented and compared with the conventional Gate-Driven Current Mirrors. The simulations of the current mirror circuits were carried out by the Pspice simulator.",
  address="Nakl. Ing. Z. Novotný",
  booktitle="Proceedings of EDS 2003 Electronic Devices and Systems Conference",
  chapter="9591",
  institution="Nakl. Ing. Z. Novotný",
  year="2003",
  month="september",
  pages="245",
  publisher="Nakl. Ing. Z. Novotný",
  type="conference paper"
}