The Experts below are selected from a list of 6 Experts worldwide ranked by ideXlab platform

D. C. Tejas - One of the best experts on this subject based on the ideXlab platform.

  • A low cost DC uninterruptible power Supply with capAcitor isolation
    2012 IEEE International Conference on Control System Computing and Engineering, 2012
    Co-Authors: D Shashanka, A Raghav, D. C. Tejas
    Abstract:

    We are in an era witnessing the rise of low power real time embedded systems. Automated embedded systems like security and monitoring systems are no longer considered luxury but as an essential part of our lives. One of the most important features of such a system is its ability to function in the absence of Ac Main Supply. This paper presents a simple, robust, easy to build, low cost uninterruptible power Supply that prioritizes Main Supply while simultaneously monitoring bAck up battery. The paper highlights the modularity of the design, and the ease of its re configurability that is application specific, all while Maintaining a low cost approAch. In the event of a power failure, the circuit switches instantaneously with filter capAcitor isolation from the circuit. This enables quick response and retention of capAcitor charge saving energy and the need for a bleeder. The design is also inspired by an all relay switching, which significantly reduces static power dissipation.

D Shashanka - One of the best experts on this subject based on the ideXlab platform.

  • A low cost DC uninterruptible power Supply with capAcitor isolation
    2012 IEEE International Conference on Control System Computing and Engineering, 2012
    Co-Authors: D Shashanka, A Raghav, D. C. Tejas
    Abstract:

    We are in an era witnessing the rise of low power real time embedded systems. Automated embedded systems like security and monitoring systems are no longer considered luxury but as an essential part of our lives. One of the most important features of such a system is its ability to function in the absence of Ac Main Supply. This paper presents a simple, robust, easy to build, low cost uninterruptible power Supply that prioritizes Main Supply while simultaneously monitoring bAck up battery. The paper highlights the modularity of the design, and the ease of its re configurability that is application specific, all while Maintaining a low cost approAch. In the event of a power failure, the circuit switches instantaneously with filter capAcitor isolation from the circuit. This enables quick response and retention of capAcitor charge saving energy and the need for a bleeder. The design is also inspired by an all relay switching, which significantly reduces static power dissipation.

A Raghav - One of the best experts on this subject based on the ideXlab platform.

  • A low cost DC uninterruptible power Supply with capAcitor isolation
    2012 IEEE International Conference on Control System Computing and Engineering, 2012
    Co-Authors: D Shashanka, A Raghav, D. C. Tejas
    Abstract:

    We are in an era witnessing the rise of low power real time embedded systems. Automated embedded systems like security and monitoring systems are no longer considered luxury but as an essential part of our lives. One of the most important features of such a system is its ability to function in the absence of Ac Main Supply. This paper presents a simple, robust, easy to build, low cost uninterruptible power Supply that prioritizes Main Supply while simultaneously monitoring bAck up battery. The paper highlights the modularity of the design, and the ease of its re configurability that is application specific, all while Maintaining a low cost approAch. In the event of a power failure, the circuit switches instantaneously with filter capAcitor isolation from the circuit. This enables quick response and retention of capAcitor charge saving energy and the need for a bleeder. The design is also inspired by an all relay switching, which significantly reduces static power dissipation.

Noureddine Mansour - One of the best experts on this subject based on the ideXlab platform.

  • Performance of a hybrid energy system
    2010 IEEE International Energy Conference, 2010
    Co-Authors: Maamar Taleb, Shaker Haji, Noureddine Mansour
    Abstract:

    A hybrid energy system consisting of a photovoltaic generator (PVG) and a fuel cell generator (FCG) has been interconnected to an Ac Main Supply. The interconnection has been done through two separate bridge rectifiers. The two bridge rectifiers have been operated on a mode called “Inverter Mode of Operation”. The whole integrated or interconnected system has been used to Supply an Ac load with certain power that is desired to be kept constant without regard to the surrounding insolation or irradiation levels. A maximum power point trAcker has been used in conjunction with the PVG module and that is to guaranty the maximum exploitation of the the PVG power and to ease the burden on the fuel cell (FCG) power. Excess energy, generated by the renewable energy system, is pumped to the Ac Main Supply. The performance of the whole system (i.e PVG, FCG, Ac Main Supply, and the pretended Ac load) has been assessed using MATLAB/SIMULINK environment. Quite encouraging results were obtained.

Maamar Taleb - One of the best experts on this subject based on the ideXlab platform.

  • Performance of a hybrid energy system
    2010 IEEE International Energy Conference, 2010
    Co-Authors: Maamar Taleb, Shaker Haji, Noureddine Mansour
    Abstract:

    A hybrid energy system consisting of a photovoltaic generator (PVG) and a fuel cell generator (FCG) has been interconnected to an Ac Main Supply. The interconnection has been done through two separate bridge rectifiers. The two bridge rectifiers have been operated on a mode called “Inverter Mode of Operation”. The whole integrated or interconnected system has been used to Supply an Ac load with certain power that is desired to be kept constant without regard to the surrounding insolation or irradiation levels. A maximum power point trAcker has been used in conjunction with the PVG module and that is to guaranty the maximum exploitation of the the PVG power and to ease the burden on the fuel cell (FCG) power. Excess energy, generated by the renewable energy system, is pumped to the Ac Main Supply. The performance of the whole system (i.e PVG, FCG, Ac Main Supply, and the pretended Ac load) has been assessed using MATLAB/SIMULINK environment. Quite encouraging results were obtained.