Control Strategies for Open-End Winding Drives Operating in the Flux-Weakening Region

This paper presents and compares control strategies for three-phase open-end winding drives operating in the flux-weakening region. A six-leg inverter with a single dc-link is associated with the machine in order to use a single energy source. With this topology, the zero-sequence circuit has to be considered since the zero-sequence current can circulate in the windings. Therefore, conventional over-modulation strategies are not appropriate when the machine enters in the flux-weakening region. A few solutions dealing with the zero-sequence circuit have been proposed in literature. They use a modified space vector modulation or a conventional modulation with additional voltage limitations. The paper describes the aforementioned strategies and then a new strategy is proposed. This new strategy takes into account the magnitudes and phase angles of the voltage harmonic components. This yields better voltage utilization in the dq frame. Furthermore, inverter saturation is avoided in the zero-sequence frame and therefore zero-sequence current control is maintained. Three methods are implemented on a test bed composed of a three-phase permanent-magnet synchronous machine, a six-leg inverter and a hybrid DSP/FPGA controller. Experimental results are presented and compared for all strategies. A performance analysis is conducted as regards the region of operation and the machine parameters.Projet SOFRACI/FU

FPGA Implementation of a General Space Vector Approach on a 6-Leg Voltage Source Inverter

A general algorithm of a Space Vector approach is implemented on a 6-leg VSI controlling a PM synchronous machine with three independent phases. In this last case, the necessity of controlling the zero-sequence current motivates the choice of a special family of vectors, different of this one used in Pulse Width Modulation (PWM) intersective strategy and in common Space Vector PWM (SVPWM). To preserve the parallelism of the algorithm and fulfill the execution time constraints, the implementation is made on a Field Programmable Gate Array (FPGA). Comparisons with more classical 2-level and 3-level PWM are provided.Fui8 within the SOFRACI projec

Identification of a 7-phase claw-pole starter-alternator for a micro-hybrid automotive application

This paper deals with the identification of a new high power starter-alternator system, using both: a Finite Element Method (FEM) modeling and an experimental vector control. The drive is composed of a synchronous 7-phase claw-pole machine supplied with a low voltage / high current Voltage Source Inverter (VSI). This structure needs specific approaches to plan its electrical and mechanical behaviors and to identify the parameters needed for control purpose. At first, a Finite Element Method (FEM) modeling of the machine is presented. It is used for the predetermination of the electromotive forces and of the torque. Experimental results are in good accordance with numerical results. In a second part, resistive and inductive parameters of the drive are determined by an original experimental approach that takes into account each component of the drive: the battery, the VSI and the machine.Futurelec IV (Region Nord Pas de Calais

Modeling and Control of a 7-phase Claw-pole Starter-alternator for a Micro-hybrid Automotive Application

This paper deals with the modeling and the control of a new high power 12V Integrated Starter Alternator (ISA). This system is used to bring micro-hybrid functions to standard Internal Combustion Engine (ICE) vehicles. The drive is composed of a seven-phase synchronous claw-pole machine with separate excitation, supplied with a seven-leg Voltage Source Inverter (VSI) designed for low voltage and high current. The system is modeled in a generalized Concordia frame and a graphical description is used to highlight energetic properties of such a complex system. A control scheme is then deduced from this graphical description. Two controls are achieved in generator mode and compared: one is using the VSI in a square-wave mode, the other in a Pulse Width Modulation (PWM) mode. Experimental results are provided.This work was supported by the French car supplier Valeoand the regional council of France Region-Nord-Pas-De-Calais

Modélisation et commande d'un système à trois phases indépendantes à double fonctionnalité (Traction Électrique et Chargeur Forte Puissance pour application automobile)

La topologie onduleur à six bras associé à une machine triphasée à phases indépendantes a la propriété de d'offrir, dans le cadre applicatif de l'automobile, une double fonctionnalité, traction et chargeur forte puissance. Cet avantage nécessite, par contre, le contrôle des composantes homopolaires classiquement nulles lors de la présence d'un couplage en étoile. Cette thèse propose alors, d'une part une étude et une modélisation des onduleurs multi-bras et, d'autre part, développe des stratégies de contrôle-commande adaptées à la présence des grandeurs homopolaires. Les algorithmes de commande classiques de l'onduleur sont comparés et une stratégie vectorielle originale, dite Z-SVM permettant d'annuler le courant homopolaire haute fréquence, est développée. Enfin, il est montré comment la gestion des composantes homopolaires aux valeurs moyennes permet d'accroître les performances de l'ensemble à faible comme à haute vitesse, en jouant sur les zones avant et après défluxage des caractéristiques couple-vitesse. Les solutions proposées sont validées sur un banc expérimental composé d'une machine prototype spécialement développée pour une application automobile et alimentée par un onduleur six-bras commandé par des composants de type FPGA. Les stratégies proposées sont comparées en termes de performances et de complexité algorithmique.For an automotive application, a six leg-VSI connected to a three-phase open-end winding machine has the ability to offer a dual-function. In this case, an additional zero-sequence component, usually absent when a star-coupling is used, needs to be controlled. Firstly, a study, modeling and control of a multi-leg inverter are proposed. Secondly, control structures capable of handling the presence of zero-sequence components are investigated. The conventional control algorithms applied to the inverter are analyzed and an original vector control strategy, called Z-SVM, capable to cancel the high frequency zero-sequence current is developed. Finally, it is shown how the management of the zero-sequence components enhances the performance of the drive at low as well as at high-speed, corresponding on the areas of the torque-speed characteristics before and after flux weakening. The proposed solutions are validated on an experimental test bench consisting of a machine prototype especially developed for automotive application and powered by a six-leg inverter controlled by an FPGA-based device. The proposed strategies are compared in terms of performance and computational complexity.PARIS-Arts et Métiers (751132303) / SudocSudocFranceF

Effect of Using PLL-Based Grid-Forming Control on Active Power Dynamics Under Various SCR

This paper investigates the effect of using phaselocked loop (PLL) on the performance of a grid-forming controlled converter. Usually, a grid-forming controlled converter operates without dedicated PLL. It is shown that in this case, the active power dominant dynamics are highly dependent to the grid short circuit ratio (SCR). In case of using PLL, the obtained results illustrate that the SCR has a negligible effect on the dynamic behavior of the system. Moreover, the power converter will not participate to the frequency regulation anymore; therefore, the converter response time can be adjusted independently to the choice of the droop control gain, which is not possible without PLL. A simple equivalent model is presented which gives a physical explanation of these features

Modélisation et commande d'un système à trois phases indépendantes à double fonctionnalité (Traction Électrique et Chargeur Forte Puissance pour application automobile)

La topologie onduleur à six bras associé à une machine triphasée à phases indépendantes a la propriété de d'offrir, dans le cadre applicatif de l'automobile, une double fonctionnalité, traction et chargeur forte puissance. Cet avantage nécessite, par contre, le contrôle des composantes homopolaires classiquement nulles lors de la présence d'un couplage en étoile. Cette thèse propose alors, d'une part une étude et une modélisation des onduleurs multi-bras et, d'autre part, développe des stratégies de contrôle-commande adaptées à la présence des grandeurs homopolaires. Les algorithmes de commande classiques de l'onduleur sont comparés et une stratégie vectorielle originale, dite Z-SVM permettant d'annuler le courant homopolaire haute fréquence, est développée. Enfin, il est montré comment la gestion des composantes homopolaires aux valeurs moyennes permet d'accroître les performances de l'ensemble à faible comme à haute vitesse, en jouant sur les zones avant et après défluxage des caractéristiques couple-vitesse. Les solutions proposées sont validées sur un banc expérimental composé d'une machine prototype spécialement développée pour une application automobile et alimentée par un onduleur six-bras commandé par des composants de type FPGA. Les stratégies proposées sont comparées en termes de performances et de complexité algorithmique.For an automotive application, a six leg-VSI connected to a three-phase open-end winding machine has the ability to offer a dual-function. In this case, an additional zero-sequence component, usually absent when a star-coupling is used, needs to be controlled. Firstly, a study, modeling and control of a multi-leg inverter are proposed. Secondly, control structures capable of handling the presence of zero-sequence components are investigated. The conventional control algorithms applied to the inverter are analyzed and an original vector control strategy, called Z-SVM, capable to cancel the high frequency zero-sequence current is developed. Finally, it is shown how the management of the zero-sequence components enhances the performance of the drive at low as well as at high-speed, corresponding on the areas of the torque-speed characteristics before and after flux weakening. The proposed solutions are validated on an experimental test bench consisting of a machine prototype especially developed for automotive application and powered by a six-leg inverter controlled by an FPGA-based device. The proposed strategies are compared in terms of performance and computational complexity.PARIS-Arts et Métiers (751132303) / SudocSudocFranceF

Comparison of open and robotic-assisted partial nephrectomy approaches using multicentric data (UroCCR-47 study)

We compared the outcomes of robotic-assisted partial nephrectomy (RPN) and open partial nephrectomy (OPN) using contemporary data to respond to unmet clinical needs. Data from patients included in the registry who underwent partial nephrectomy between January 01, 2014 and June 30, 2017 within 20 centres of the French Network for Research on Kidney Cancer UroCCR were collected (NCT03293563). Statistical methods included adjusted multivariable analyses. Rates of peri- and post-operative transfusion, and of surgical revision, were lower in the RPN (n = 1434) than the OPN (n = 571) group (2.9% vs. 6.0%, p = 0.0012; 3.8% vs. 11.5%, p < 0.0001; 2.4% vs. 6.7%, p < 0.0001, respectively). In multivariable analyses, RPN was independently associated with fewer early post-operative complications than OPN (overall: odds-ratio [95% confidence interval, CI] = 0.48 [0.35–0.66]; severe: 0.29 [0.16–0.54], p < 0.0001 for both) and shorter hospital stays (34% [30%; 37%], p < 0.0001). RPN was also a significantly associated with a decresedrisk of post-operative acute renal failure, and new-onset chronic kidney disease at 3 and 12 months post-surgery. There were no between-group differences in oncological outcomes. In comparison with OPN, RPN was associated with improved peri- and post-operative morbidity, better functional outcomes, and shorter hospital stays. Our results support the use of RPN, even for large and complex tumours