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Binary Genetic Encoding for the Synthesis of Mixed-Mode Circuit Topologies
MIGUEL AURELIO DUARTE VILLASEÑOR
ESTEBAN TLELO CUAUTLE
LUIS GERARDO DE LA FRAGA
Acceso Abierto
Atribución-NoComercial-SinDerivadas
Evolutionary electronics
Genetic encoding
Nullor
Circuit synthesis
Unity-gain cell
Current conveyor
Current-feedback operational amplifier
A binary genetic encoding (BGE) representation for the automatic synthesisof mixed-mode circuit topologies, is introduced. First, the genetic encodingof unity-gain cells (UGCs), such as voltage (VF) and current followers (CF), andvoltage (VM) and current mirrors (CM), is presented. New BGEs for the VM andCM are introduced. Second, the UGC’s chromosomes are combined to synthesizemixed-mode circuit-topologies, namely current conveyors and current-feedback operationalamplifiers (CFOA). Five strategies for the combination or superimposing ofUGCs are introduced. The proposed BGE has been implemented inMATLAB™, andlinks SPICE to evaluate the populations with different integrated circuit technologies. Some new synthesized circuit topologies are shown along with their chromosome description.
Circuits Syst. Signal Process
2012
Artículo
Inglés
Estudiantes
Investigadores
Público en general
Duarte-Villaseñor, Miguel Aurelio, et al., (2012), Binary Genetic Encoding for the Synthesis of Mixed-Mode Circuit Topologies, Circuits Syst. Signal Process, Vol. 31:849–863
ELECTRÓNICA
Versión aceptada
acceptedVersion - Versión aceptada
Aparece en las colecciones: Artículos de Electrónica

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