The Experts below are selected from a list of 18810 Experts worldwide ranked by ideXlab platform
Xingpo Miao - One of the best experts on this subject based on the ideXlab platform.
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Design and implementation of novel smart Battery Management System for FPGA based portable electronic devices
Energies, 2017Co-Authors: Fangrong Xue, Zhi Ling, Yubing Yang, Xingpo MiaoAbstract:This paper presents the analysis and design of a smart Battery Management System for Field Programmable Gate Array (FPGA) based portable electronic devices. It is a novel concept of incorporating the functionality of a smart Battery Management System into the FPGA used by portable electronic devices, which provides the following advantages. (1) It lowers cost since the conventional commercial independent Battery Management circuit can be eliminated; (2) It offers more flexibility because FPGA based Battery Management algorithms can be specifically designed for different Battery chemistries of different devices and can provide the flexibility of algorithms and functionalities updating as well. Smart Battery Management System concepts include four aspects: (1) smart charging; (2) Battery balancing; (3) smart discharging; and (4) safety operating. One novel charging algorithm, which combines the merits of multistage charging and pulse charging, is proposed to charge a Li-ion Battery pack smartly. A Proportional Integral (PI) control method is introduced to achieve the current control of charging circuit with considerable close loop stability. Simulation results from the PSIM 9.0.4 software package and experimental results from the prototype built in the lab are demonstrated to verify the effectiveness of smart charging. The realizations of Battery balancing, smart discharging, and safety operating are also briefly described by taking advantage of the proposed FPGA based smart Battery Management System topology, which verify the feasibility of the proposed FPGA based smart Battery Management System for portable electronic devices.
Fangrong Xue - One of the best experts on this subject based on the ideXlab platform.
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Design and implementation of novel smart Battery Management System for FPGA based portable electronic devices
Energies, 2017Co-Authors: Fangrong Xue, Zhi Ling, Yubing Yang, Xingpo MiaoAbstract:This paper presents the analysis and design of a smart Battery Management System for Field Programmable Gate Array (FPGA) based portable electronic devices. It is a novel concept of incorporating the functionality of a smart Battery Management System into the FPGA used by portable electronic devices, which provides the following advantages. (1) It lowers cost since the conventional commercial independent Battery Management circuit can be eliminated; (2) It offers more flexibility because FPGA based Battery Management algorithms can be specifically designed for different Battery chemistries of different devices and can provide the flexibility of algorithms and functionalities updating as well. Smart Battery Management System concepts include four aspects: (1) smart charging; (2) Battery balancing; (3) smart discharging; and (4) safety operating. One novel charging algorithm, which combines the merits of multistage charging and pulse charging, is proposed to charge a Li-ion Battery pack smartly. A Proportional Integral (PI) control method is introduced to achieve the current control of charging circuit with considerable close loop stability. Simulation results from the PSIM 9.0.4 software package and experimental results from the prototype built in the lab are demonstrated to verify the effectiveness of smart charging. The realizations of Battery balancing, smart discharging, and safety operating are also briefly described by taking advantage of the proposed FPGA based smart Battery Management System topology, which verify the feasibility of the proposed FPGA based smart Battery Management System for portable electronic devices.
William Gerard Hurley - One of the best experts on this subject based on the ideXlab platform.
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Battery Management System for solar energy applications
… , 2006. UPEC'06. Proceedings of the …, 2006Co-Authors: M. E. Glavin, William Gerard HurleyAbstract:Generally in photovoltaic applications the storage Battery has the highest life time cost in the System; it has a profound affect on the reliability and performance of the System. Currently the most commonly used storage technology for photovoltaic applications is the lead acid Battery. The advantages of the lead acid Battery are its low cost and great availability. The problem is that photovoltaic panels are not an ideal source for charging batteries. With the lead acid Battery the charging regime may have a significant impact on its service life. The Battery Management System described in this paper aims to optimize the use of the Battery, to prolong the life of the Battery, making the overall System more reliable and cost effective. Maximum power point tracking will also be incorporated into the Battery Management System, to move the solar array operating voltage close to the maximum power point under varying atmospheric conditions, in order to draw the maximum power from the array. This paper will describe different Battery technologies that are currently used with photovoltaic Systems along with some of the charging techniques that are available.
Yubing Yang - One of the best experts on this subject based on the ideXlab platform.
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Design and implementation of novel smart Battery Management System for FPGA based portable electronic devices
Energies, 2017Co-Authors: Fangrong Xue, Zhi Ling, Yubing Yang, Xingpo MiaoAbstract:This paper presents the analysis and design of a smart Battery Management System for Field Programmable Gate Array (FPGA) based portable electronic devices. It is a novel concept of incorporating the functionality of a smart Battery Management System into the FPGA used by portable electronic devices, which provides the following advantages. (1) It lowers cost since the conventional commercial independent Battery Management circuit can be eliminated; (2) It offers more flexibility because FPGA based Battery Management algorithms can be specifically designed for different Battery chemistries of different devices and can provide the flexibility of algorithms and functionalities updating as well. Smart Battery Management System concepts include four aspects: (1) smart charging; (2) Battery balancing; (3) smart discharging; and (4) safety operating. One novel charging algorithm, which combines the merits of multistage charging and pulse charging, is proposed to charge a Li-ion Battery pack smartly. A Proportional Integral (PI) control method is introduced to achieve the current control of charging circuit with considerable close loop stability. Simulation results from the PSIM 9.0.4 software package and experimental results from the prototype built in the lab are demonstrated to verify the effectiveness of smart charging. The realizations of Battery balancing, smart discharging, and safety operating are also briefly described by taking advantage of the proposed FPGA based smart Battery Management System topology, which verify the feasibility of the proposed FPGA based smart Battery Management System for portable electronic devices.
Zhi Ling - One of the best experts on this subject based on the ideXlab platform.
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Design and implementation of novel smart Battery Management System for FPGA based portable electronic devices
Energies, 2017Co-Authors: Fangrong Xue, Zhi Ling, Yubing Yang, Xingpo MiaoAbstract:This paper presents the analysis and design of a smart Battery Management System for Field Programmable Gate Array (FPGA) based portable electronic devices. It is a novel concept of incorporating the functionality of a smart Battery Management System into the FPGA used by portable electronic devices, which provides the following advantages. (1) It lowers cost since the conventional commercial independent Battery Management circuit can be eliminated; (2) It offers more flexibility because FPGA based Battery Management algorithms can be specifically designed for different Battery chemistries of different devices and can provide the flexibility of algorithms and functionalities updating as well. Smart Battery Management System concepts include four aspects: (1) smart charging; (2) Battery balancing; (3) smart discharging; and (4) safety operating. One novel charging algorithm, which combines the merits of multistage charging and pulse charging, is proposed to charge a Li-ion Battery pack smartly. A Proportional Integral (PI) control method is introduced to achieve the current control of charging circuit with considerable close loop stability. Simulation results from the PSIM 9.0.4 software package and experimental results from the prototype built in the lab are demonstrated to verify the effectiveness of smart charging. The realizations of Battery balancing, smart discharging, and safety operating are also briefly described by taking advantage of the proposed FPGA based smart Battery Management System topology, which verify the feasibility of the proposed FPGA based smart Battery Management System for portable electronic devices.
