Your search keyword '"embedded energy share method"' showing total 2 results

1. Polynomial Control Method of DC/DC Converters for DC-Bus Voltage and Currents Management—Battery and Supercapacitors

Author

Brayima Dakyo, Mamadou Bailo Camara, Hamid Gualous, Groupe de Recherche en Electrotechnique et Automatique du Havre (GREAH), Université Le Havre Normandie (ULH), Normandie Université (NU)-Normandie Université (NU), Laboratoire Universitaire des Sciences Appliquées de Cherbourg (LUSAC), and Université de Caen Normandie (UNICAEN)

Subjects

Engineering, energy management, polynomials, Battery, 02 engineering and technology, DC-bus voltage, 7. Clean energy, Topology, high energy storage system, [SPI]Engineering Sciences [physics], 0202 electrical engineering, electronic engineering, information engineering, Supercapacitors, Power semiconductor device, supercapacitor, Electrical engineering, Battery (vacuum tube), DC-DC power convertors, Insulated-gate bipolar transistor, polynomial control supercapacitors, electric hybrid vehicles, DC-DC power converters, PWM power convertors, PIC18F4431 microcontroller, dynamic control, microcontrollers, Energy management, 020209 energy, pulsewidth modulation signal, DC-DC converter, Topology (electrical circuits), Vehicle dynamics, peak power requirement, Energy storage, network topology, hybrid electric vehicles, hybrid electric vehicle performance, Batteries, Aerodynamics, analog-to-digital conversion, Electronic engineering, energy management systems, ultracapacitors, Electrical and Electronic Engineering, cells (electric), analogue-digital conversion, polynomial control method, buck-boost converter, business.industry, energy storage, embedded energy share method, 020208 electrical & electronic engineering, [SPI.NRJ]Engineering Sciences [physics]/Electric power, Converters, DC-bus current management, Voltage control, SC module, business, Voltage

Abstract

International audience; This paper presents an embedded energy share method between the high energy storage system (battery) and the auxiliary energy storage system such as supercapacitors (SC). Using the SC and battery with a good strategy for energy management improves the performance of hybrid electric vehicles (HEVs). The SC modules are dimensioned for peak power requirement, and the battery's module ensures the average power of HEVs. The battery module is connected to dc-bus through a dc/dc converter for the first topology and without a converter for the second configuration. Buck-boost converters are used between the SC and the dc-bus to manage the available energy for all topologies. The originality of this paper stems from its focus on the control methods of the dc-bus voltage and currents, which use adjustable polynomial controllers (correctors based on polynomial approach). These methods are implemented in the PIC18F4431 microcontroller which ensures analog to digital conversion, and the pulsewidth modulation signals generation for dc/dc converters. Due to cost and available components, such as the power semiconductors (IGBT) and the battery, the experimental tests benches are carried out in reduced scale. Through some simulations and experimental results, the performance of the proposed control is shown and analyzed.

Published

2012

2. Polynomial Control Method of DC/DC Converters for DC-Bus Voltage and Currents Management—Battery and Supercapacitors

Author

CAMARA, Mamadou Baïlo, Gualous, Hamid, Gustin, Frédéric, Berthon, Alain, Dakyo, Brayma, Groupe de Recherche en Electrotechnique et Automatique du Havre (GREAH), Université Le Havre Normandie (ULH), Normandie Université (NU)-Normandie Université (NU), Laboratoire Universitaire des Sciences Appliquées de Cherbourg (LUSAC), and Université de Caen Normandie (UNICAEN)

Subjects

energy management, polynomials, pulsewidth modulation signal, DC-DC converter, Battery, Vehicle dynamics, DC-bus voltage, peak power requirement, Topology, high energy storage system, network topology, hybrid electric vehicles, hybrid electric vehicle performance, Batteries, Aerodynamics, [SPI]Engineering Sciences [physics], analog-to-digital conversion, Supercapacitors, energy management systems, ultracapacitors, supercapacitor, cells (electric), analogue-digital conversion, polynomial control method, buck-boost converter, energy storage, embedded energy share method, [SPI.NRJ]Engineering Sciences [physics]/Electric power, DC-DC power convertors, DC-bus current management, polynomial control supercapacitors, Voltage control, electric hybrid vehicles, DC-DC power converters, PWM power convertors, SC module, PIC18F4431 microcontroller, dynamic control, microcontrollers

Abstract

International audience; This paper presents an embedded energy share method between the high energy storage system (battery) and the auxiliary energy storage system such as supercapacitors (SC). Using the SC and battery with a good strategy for energy management improves the performance of hybrid electric vehicles (HEVs). The SC modules are dimensioned for peak power requirement, and the battery's module ensures the average power of HEVs. The battery module is connected to dc-bus through a dc/dc converter for the first topology and without a converter for the second configuration. Buck-boost converters are used between the SC and the dc-bus to manage the available energy for all topologies. The originality of this paper stems from its focus on the control methods of the dc-bus voltage and currents, which use adjustable polynomial controllers (correctors based on polynomial approach). These methods are implemented in the PIC18F4431 microcontroller which ensures analog to digital conversion, and the pulsewidth modulation signals generation for dc/dc converters. Due to cost and available components, such as the power semiconductors (IGBT) and the battery, the experimental tests benches are carried out in reduced scale. Through some simulations and experimental results, the performance of the proposed control is shown and analyzed.

Published

2012