Battery/Supercapacitor Emulator for Chargers Functionality Testing
In this paper, design of solid-state battery/supercapacitor emulator based on dc-dc boost converter is described.
The emulator mimics charging behavior of any storage device based
on a predefined behavior set by the user. The device is operated by a
two-level control structure: high-level emulating controller and low-
level input voltage controller. Simulation and experimental results are
shown to demonstrate the emulator operation.
[1] A. Burke, "Batteries and ultracapacitors for electric, hybrid and fuel cell
vehicles," Proc. IEEE, vol. 95, no. 4, pp. 806-820, Apr. 2007.
[2] A. Burke, "Ultracapacitor technologies and application in hybrid and
electric vehicles," Int. J. Energy Res., vol. 34, pp. 133-151, 2009.
[3] J. M. Blanes, R. Gutierrez, A. Garrigos, J. L. Lizan and J. M. Guadrado,
"Electric vehicle battery life extension using ultracapacitors and an
FPGA controlled interleaved buck-boost converter," IEEE Trans. Power
Electron., vol. 28, no. 12, pp. 5940 – 5948, Dec. 2013.
[4] O. Ladin, M. Moshirvaziri and O. Trescases, "Predictive algorithm for
optimizing power flow in hybrid ultracapacitor/battery storage systems
for light electric vehicles," IEEE Trans. Power Electron., vol. 20, no. 8,
pp. 3882 – 1895, Aug. 2013.
[5] J. Cao and A. Emadi, "A new battery/ultracapacitor hybrid energy
storage system for electric, hybrid, and plug-in hybrid electric vehicles,"
IEEE Trans. Power Electron., vol. 27, no. 1, pp. 122 – 132, Jan. 2012.
[6] A. Allegre, A. Bouscayrol, P. Delarue, P. Barrade, E. Chattot and S. El
Fassi, "Energy storage system with supercapacitor for an innovative
subway," IEEE Trans. Ind. Electron., vol. 57, no. 12, pp. 4001-4012,
Dec. 2010.
[7] J. Torreglosa, P. Garcia, L. Fernandez, F. Jurado, "Predictive control for
the energy management of a fuel cell-battery-supercapacitor tramway,"
IEEE Trans. Ind. Inform., To appear.
[8] D. Iannuzzi and P. Tricoli, "Speed-based state-of-charge tracking control
for metro trains with onboard supercapacitors," IEEE Trans. Power
Electron., vol. 27, no. 4, pp. 2129 - 2140, Apr. 2012.
[9] A. Kuperman, U. Levy, J. Goren, A. Zafransky and A. Savernin,
"Battery charger for electric vehicle traction battery switch station,"
IEEE Trans. Ind. Electron., vol. 60, no. 12, pp. 5391 – 5399, Dec. 2013.
[10] M. Yilmaz and P. Krein, "Review of battery charger topologies,
charging power levels and infrastructure for plug-in electric and hybrid
vehicles," IEEE Trans. Power Electron., vol. 28, no. 5, pp. 2151-2169,
May 2013.
[1] A. Burke, "Batteries and ultracapacitors for electric, hybrid and fuel cell
vehicles," Proc. IEEE, vol. 95, no. 4, pp. 806-820, Apr. 2007.
[2] A. Burke, "Ultracapacitor technologies and application in hybrid and
electric vehicles," Int. J. Energy Res., vol. 34, pp. 133-151, 2009.
[3] J. M. Blanes, R. Gutierrez, A. Garrigos, J. L. Lizan and J. M. Guadrado,
"Electric vehicle battery life extension using ultracapacitors and an
FPGA controlled interleaved buck-boost converter," IEEE Trans. Power
Electron., vol. 28, no. 12, pp. 5940 – 5948, Dec. 2013.
[4] O. Ladin, M. Moshirvaziri and O. Trescases, "Predictive algorithm for
optimizing power flow in hybrid ultracapacitor/battery storage systems
for light electric vehicles," IEEE Trans. Power Electron., vol. 20, no. 8,
pp. 3882 – 1895, Aug. 2013.
[5] J. Cao and A. Emadi, "A new battery/ultracapacitor hybrid energy
storage system for electric, hybrid, and plug-in hybrid electric vehicles,"
IEEE Trans. Power Electron., vol. 27, no. 1, pp. 122 – 132, Jan. 2012.
[6] A. Allegre, A. Bouscayrol, P. Delarue, P. Barrade, E. Chattot and S. El
Fassi, "Energy storage system with supercapacitor for an innovative
subway," IEEE Trans. Ind. Electron., vol. 57, no. 12, pp. 4001-4012,
Dec. 2010.
[7] J. Torreglosa, P. Garcia, L. Fernandez, F. Jurado, "Predictive control for
the energy management of a fuel cell-battery-supercapacitor tramway,"
IEEE Trans. Ind. Inform., To appear.
[8] D. Iannuzzi and P. Tricoli, "Speed-based state-of-charge tracking control
for metro trains with onboard supercapacitors," IEEE Trans. Power
Electron., vol. 27, no. 4, pp. 2129 - 2140, Apr. 2012.
[9] A. Kuperman, U. Levy, J. Goren, A. Zafransky and A. Savernin,
"Battery charger for electric vehicle traction battery switch station,"
IEEE Trans. Ind. Electron., vol. 60, no. 12, pp. 5391 – 5399, Dec. 2013.
[10] M. Yilmaz and P. Krein, "Review of battery charger topologies,
charging power levels and infrastructure for plug-in electric and hybrid
vehicles," IEEE Trans. Power Electron., vol. 28, no. 5, pp. 2151-2169,
May 2013.
@article{"International Journal of Electrical, Electronic and Communication Sciences:68317", author = "S. Farag and A. Kupeman", title = "Battery/Supercapacitor Emulator for Chargers Functionality Testing", abstract = "In this paper, design of solid-state battery/supercapacitor emulator based on dc-dc boost converter is described.
The emulator mimics charging behavior of any storage device based
on a predefined behavior set by the user. The device is operated by a
two-level control structure: high-level emulating controller and low-
level input voltage controller. Simulation and experimental results are
shown to demonstrate the emulator operation.
", keywords = "Battery, Charger, Energy, Storage, Supercapacitor.", volume = "8", number = "11", pages = "1758-4", }
