Detail publikace
Analog Emulator of Genuinely Floating Memcapacitor with Piecewise-Linear Constitutive Relation
BIOLEK, D. BIOLKOVÁ, V. KOLKA, Z. DOBEŠ, J.
Originální název
Analog Emulator of Genuinely Floating Memcapacitor with Piecewise-Linear Constitutive Relation
Anglický název
Analog Emulator of Genuinely Floating Memcapacitor with Piecewise-Linear Constitutive Relation
Jazyk
en
Originální abstrakt
The paper presents a method for emulating floating memcapacitors with piece-wise -linear constitutive relations between time-domain integrals of voltage and charge. The emulation is based on multiple-state floating capacitor, implemented via the switched-capacitor technique. The states of internal switches are derived from the memcapacitor memory, which stores the history of the terminal voltage. The procedure is demonstrated on a two-state memcapacitor. Computer simulations are compared with measurements on the manufactured specimen.
Anglický abstrakt
The paper presents a method for emulating floating memcapacitors with piece-wise -linear constitutive relations between time-domain integrals of voltage and charge. The emulation is based on multiple-state floating capacitor, implemented via the switched-capacitor technique. The states of internal switches are derived from the memcapacitor memory, which stores the history of the terminal voltage. The procedure is demonstrated on a two-state memcapacitor. Computer simulations are compared with measurements on the manufactured specimen.
Dokumenty
BibTex
@article{BUT114465,
author="Dalibor {Biolek} and Viera {Biolková} and Zdeněk {Kolka} and Josef {Dobeš}",
title="Analog Emulator of Genuinely Floating Memcapacitor with Piecewise-Linear Constitutive Relation",
annote="The paper presents a method for emulating floating memcapacitors with piece-wise -linear constitutive relations between time-domain integrals of voltage and charge. The emulation is based on multiple-state floating capacitor, implemented via the switched-capacitor technique. The states of internal switches are derived from the memcapacitor memory, which stores the history of the terminal voltage. The procedure is demonstrated on a two-state memcapacitor. Computer simulations are compared with measurements on the manufactured specimen.",
address="Springer US",
chapter="114465",
doi="10.1007/s00034-015-0067-8",
howpublished="print",
institution="Springer US",
number="1",
volume="35",
year="2016",
month="january",
pages="43--62",
publisher="Springer US",
type="journal article in Web of Science"
}