FPGA-Based Speed Control of Synchronous Machine using a P-PI Controller

Naouar, Mohamed Wissem; Naassani, A.A.; Slama‐Belkhodja, Ilhem

doi:10.1109/isie.2006.295698

Cited by 18 publications

(13 citation statements)

References 4 publications

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“…In [36], [37] specific strategies for PI (PID) speed controllers are proposed. However, for the double loop PI-P controller [35] used here, conditional integration with the condition for integration obtained from the second (P) loop shows very good behavior.…”

Section: B Controller Discretizationmentioning

confidence: 93%

“…The motor model, as well as the controller derivation, has been presented in [34]. Suffice it to say here that the speed control system consists of two PI current controllers, a combined PI-P speed controller (double speed feedback loop) [35], an axes decoupling and back electromotive force (BEMF) compensation module, direct and inverse coordinate transforms.…”

Section: A Motor and Controller Modelingmentioning

confidence: 99%

See 1 more Smart Citation

Simulink Modeling and Design of an Efficient Hardware-Constrained FPGA-Based PMSM Speed Controller

Alecsa

Cirstea

Onea

2012

IEEE Trans. Ind. Inf.

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Section: B Controller Discretizationmentioning

confidence: 93%

Section: A Motor and Controller Modelingmentioning

confidence: 99%

Simulink Modeling and Design of an Efficient Hardware-Constrained FPGA-Based PMSM Speed Controller

Alecsa

Cirstea

Onea

2012

IEEE Trans. Ind. Inf.

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“…The implementation of control algorithms for the synchronous machines using FPGA, DSP and PC-based controllers were studied using linear and nonlinear techniques as hysteresis control, P-PI control [58], torque control, [57], sliding mode control [59], [43], adaptive fuzzy control [41], predictive control among others [34], [60], [63].…”

Section: Motivation and Antecedentsmentioning

confidence: 99%

Sliding Mode Control of a Stand-Alone Wound Rotor Synchronous Generator

Munoz-Aguilar

Dòria‐Cerezo²,

Fossas

et al. 2011

IEEE Trans. Ind. Electron.

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ADVERTIMENT. La consulta d'aquesta tesi queda condicionada a l'acceptació de les següents condicions d'ús: La difusió d'aquesta tesi per mitjà del servei TDX (www.tesisenxarxa.net) ha estat autoritzada pels titulars dels drets de propietat intel·lectual únicament per a usos privats emmarcats en activitats d'investigació i docència. No s'autoritza la seva reproducció amb finalitats de lucre ni la seva difusió i posada a disposició des d'un lloc aliè al servei TDX. No s'autoritza la presentació del seu contingut en una finestra o marc aliè a TDX (framing). Aquesta reserva de drets afecta tant al resum de presentació de la tesi com als seus continguts. En la utilització o cita de parts de la tesi és obligat indicar el nom de la persona autora.ADVERTENCIA. La consulta de esta tesis queda condicionada a la aceptación de las siguientes condiciones de uso: La difusión de esta tesis por medio del servicio TDR (www.tesisenred.net) ha sido autorizada por los titulares de los derechos de propiedad intelectual únicamente para usos privados enmarcados en actividades de investigación y docencia. No se autoriza su reproducción con finalidades de lucro ni su difusión y puesta a disposición desde un sitio ajeno al servicio TDR. No se autoriza la presentación de su contenido en una ventana o marco ajeno a TDR (framing). Esta reserva de derechos afecta tanto al resumen de presentación de la tesis como a sus contenidos. En la utilización o cita de partes de la tesis es obligado indicar el nombre de la persona autora. WARNING.On having consulted this thesis you're accepting the following use conditions: Spreading this thesis by the TDX (www.tesisenxarxa.net) service has been authorized by the titular of the intellectual property rights only for private uses placed in investigation and teaching activities. Reproduction with lucrative aims is not authorized neither its spreading and availability from a site foreign to the TDX service. Introducing its content in a window or frame foreign to the TDX service is not authorized (framing). This rights affect to the presentation summary of the thesis as well as to its contents. In the using or citation of parts of the thesis it's obliged to indicate the name of the author AcknowledgmentsUnas cuantas líneas es poco para agradecer la compañía, apoyo, formación y guía de tantas personas que me han ayudado a alcanzar esta meta.Primero quiero dar gracias a Dios, Señor y dador de vida por todos los regalos y bendiciones recibidas. A mi familia por su formación, apoyo y preocupación en cada momento. A mi esposa por estar siempre a mi lado y soportar todas las restricciones que imponen la dedicación a una tesis; por la compañía y el apoyo en todo sentido.Pasando al ámbito profesional, diversas personas han marcado mi vida y me han hecho enamorar de la ciencia. Inicialmente, en la Universidad Nacional de Colombia varios profesores me han mostrado la belleza de las máquinas eléctricas (Jorge Fernando Gutiérrez), la electrónica de potencia (Eduardo Antonio Cano) y el Control (Fabiola Angulo), gracias ...

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“…The PI control has excellent behavior in the low steady-state error; however, the tardy response speed of PI control can result in the current spike problem and the long settling time during the HPLDDC start-up transient phase. Therefore, studies [13][14][15] have proposed the use of dual control loops, including the proportional (P) control and PI control, in which the P control can promote transient responses, and the dual control loops combined a P In this study, the HPLD of InGaN-based blue beam was used as the illuminant sources for vehicle headlamps. Due to the optical output power (OOP) of HPLD being directly proportional to its forward operating current [12], the HPLDs must be driven by a constant-current (CC).…”

Section: Introductionmentioning

confidence: 99%

“…The PI control has excellent behavior in the low steady-state error; however, the tardy response speed of PI control can result in the current spike problem and the long settling time during the HPLDDC start-up transient phase. Therefore, studies [13][14][15] have proposed the use of dual control loops, including the proportional (P) control and PI control, in which the P control can promote transient responses, and the dual control loops combined a P control loop with a PI control loop to reduce steady-state errors; thus, the system can address the requirements of transient responses and steady-state stability. However, the implementations of dual control loops with P and PI controls in the HPLDDC are too complex.…”

Section: Introductionmentioning

confidence: 99%

Start-Up Current Spike Mitigation of High-Power Laser Diode Driving Controller for Vehicle Headlamp Applications

et al. 2018

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A high-power laser diode driving controller (HPLDDC), which incorporates the power converter with the feedback controller, was developed and implemented in this paper. The synchronous buck–boost converter (SBBC) was the topology of the power converter; the SBBC could be operated in step-up or step-down mode in accordance with variable on-board battery voltage inputs into the HPLDDC. Moreover, the feedback controllers were equipped with a current-loop controller (CLC) and a voltage-loop controller (VLC); the VLC was employed to regulate the SBBC output voltage to drive and start-up the high-power laser diode (HPLD). The CLC was used to regulate the SBBC output current to supply a constant-current driving the HPLDs. During the start-up transient phase, when the SBBC output mode is changed from the constant-voltage to the constant-current, a start-up current spike occurs that can destroy the semiconductor material of the laser diode. However, few studies have discussed methods of coping with this problem. Therefore, this study proposed a proportional-integral associating proportional (PIAP) control technology, which can be applied to the CLC for the start-up current spike mitigation. Complete designs and analyses are presented in this paper. Simulations and experiments validate that the PIAP control method is effectual to solve the start-up current spike.

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FPGA-Based Speed Control of Synchronous Machine using a P-PI Controller

Cited by 18 publications

References 4 publications

Simulink Modeling and Design of an Efficient Hardware-Constrained FPGA-Based PMSM Speed Controller

Simulink Modeling and Design of an Efficient Hardware-Constrained FPGA-Based PMSM Speed Controller

Sliding Mode Control of a Stand-Alone Wound Rotor Synchronous Generator

Start-Up Current Spike Mitigation of High-Power Laser Diode Driving Controller for Vehicle Headlamp Applications

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