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Mitarbeiterdetails

Mitarbeiterdetails

Titel Autor Jahr
Design and Implementation of Analog Front End for NFC RFID with All-Digital Phase-Locked Loop Valerii TRUNIAKOV 2018
Design of True RMS Power Detector for RF Applications Ivan SEJC 2018
Design Optimisation of Integrated True RMS Detector for RF power measurement Ornel KOCI 2016
Titel Autor Jahr
Design and Implementation of Analog Front End for NFC RFID with All-Digital Phase-Locked Loop Valerii TRUNIAKOV 2018
Design of True RMS Power Detector for RF Applications Ivan SEJC 2018
Titel Autor Jahr
Design Optimisation of Integrated True RMS Detector for RF power measurement Ornel KOCI 2016
Titel Autor Jahr
Laufzeit April/2014 - September/2019
Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2011 - März/2014
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Suchendranath Popuri
  • Forschungsschwerpunkt Integrierte Schaltkreise
    Studiengang
  • Systems Engineering
  • Forschungsprogramm ENIAC Call 2010/FFG Projektnr. 829393
    Förderinstitution/Auftraggeber
  • Eniac Joint Untertaking (JU)
  • FFG - Österreichische Forschungsförderungsgesellschaft
  • This project aims at developing architecture and technologies for implementing agile radio frequency (RF) transceiver capacities in future radio communication products. These new architecture and technologies will be able to manage multi-standard (multi-band, multi-data-rate, and multi-waveform) operation with high modularity, low-power consumption, high reliability, high integration, low costs, low PCB area, and low bill of material (BOM). This will not only require smart RF architectures in advanced CMOS and Bi-CMOS technologies, but also need to incorporate e.g. MEMS technologies and novel simulation methodology for achieving these complex optimizations. Today, the analog RF frontend simply duplicates the circuitry for each band which highly inefficient. Frequency agile high dynamic range digitally assisted RF architectures suitable for nanoscale CMOS together with tunable filters are the key innovations proposed for this project.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Laufzeit April/2011 - März/2014
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Suchendranath Popuri
  • Forschungsschwerpunkt Integrierte Schaltkreise
    Studiengang
  • Systems Engineering
  • Forschungsprogramm ENIAC Call 2010/FFG Projektnr. 829393
    Förderinstitution/Auftraggeber
  • Eniac Joint Untertaking (JU)
  • FFG - Österreichische Forschungsförderungsgesellschaft
  • This project aims at developing architecture and technologies for implementing agile radio frequency (RF) transceiver capacities in future radio communication products. These new architecture and technologies will be able to manage multi-standard (multi-band, multi-data-rate, and multi-waveform) operation with high modularity, low-power consumption, high reliability, high integration, low costs, low PCB area, and low bill of material (BOM). This will not only require smart RF architectures in advanced CMOS and Bi-CMOS technologies, but also need to incorporate e.g. MEMS technologies and novel simulation methodology for achieving these complex optimizations. Today, the analog RF frontend simply duplicates the circuitry for each band which highly inefficient. Frequency agile high dynamic range digitally assisted RF architectures suitable for nanoscale CMOS together with tunable filters are the key innovations proposed for this project.

    Laufzeit April/2014 - September/2019
    Projektleitung
  • Johannes Sturm
  • Projektmitarbeiter/innen
  • Graciele Batistell
  • Ingmar Bihlo
  • Bernd Filipitsch
  • Vedran Ibrahimovic
  • Michael Köberle
  • Manfred Ley
  • Erwin Ofner
  • Suchendranath Popuri
  • Sahar Sarafi
  • Vedran SESIC
  • Hermann Sterner
  • Jagadish VAIBHAV
  • Angelika Voutsinas
  • Mario Wehr
  • Forschungsschwerpunkt Mikroelektronik
    Studiengang
  • Integrated Systems and Circuits Design
  • Forschungsprogramm BM.WFJ: Josef-Ressel-Zentrum
    Förderinstitution/Auftraggeber
  • Christian Doppler Forschungsgesellschaft
  • The research activities of the proposed Ressel Center at FH-Kärnten will focus on modeling and implementation of integrated radio-frequency (RF) systems and circuits based on standard integrated circuit CMOS technologies. The tasks include all necessary development steps from modeling, simulation, circuit implementation to lab characterization supporting future integrated wireless communication systems.

    Konferenzbeiträge
    Titel Autor Jahr
    A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers in: 42nd European Solid-State Circuits Conference, 12-15 Sep 2016, Lausanne, S. 185-188 Popuri, S., Pasupureddi, V., Sturm, J. 2016
    A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers. in: 4th Workshop Radio Frequency Engineering Working Group of Austrian Research Association, 17-18 Oct 2016, Villach Popuri, S., Pasupureddi, V., Sturm, J. 2016

    Konferenzbeiträge
    Titel Autor Jahr
    A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers in: 42nd European Solid-State Circuits Conference, 12-15 Sep 2016, Lausanne, S. 185-188 Popuri, S., Pasupureddi, V., Sturm, J. 2016
    A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers. in: 4th Workshop Radio Frequency Engineering Working Group of Austrian Research Association, 17-18 Oct 2016, Villach Popuri, S., Pasupureddi, V., Sturm, J. 2016

    Verwenden Sie für externe Referenzen auf das Profil von Suchendranath Popuri folgenden Link: www.fh-kaernten.at/mitarbeiter/?person=s.popuri
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