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Hydrogen bonding network as a DC level shifter and a power amplifier

The present paper compares a protein hydrogen bonding network (HBN) to a microelectronic circuit. The HBN properties that are applicable to the microelectronic circuit are simulated in Matlab. The hydrogen bonds are coded in Matlab as tree- and four- terminal microelectronic block elements which bui...

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Main Authors: Rusev, R, Angelov, G, Gieva, E, Takov, T, Hristov, M
Format: Conference Proceeding
Language:English
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creator Rusev, R
Angelov, G
Gieva, E
Takov, T
Hristov, M
description The present paper compares a protein hydrogen bonding network (HBN) to a microelectronic circuit. The HBN properties that are applicable to the microelectronic circuit are simulated in Matlab. The hydrogen bonds are coded in Matlab as tree- and four- terminal microelectronic block elements which build up the respective electrical circuit. The simulations demonstrate that the circuit can operate in various electrical modes. Static analysis shows that the circuit can operate as DC level shifter and as power amplifier with two outputs working in different amplification modes. Dynamic analysis reveals that the circuit can operate as current amplitude limiter.
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ispartof Proceedings of the 17th International Conference Mixed Design of Integrated Circuits and Systems - MIXDES 2010, 2010, p.408-411
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Bonding
circuit modeling
DC level shifter
DNA
Equations
HBN
Mathematical model
Microelectronics
power amplifier
Proteins
proton transfer
Protons
title Hydrogen bonding network as a DC level shifter and a power amplifier
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