Real-Time Processor-in-Loop Investigation of a Modified Non-Linear State Observer Using Sliding Modes for Speed Sensorless Induction Motor Drive in Electric Vehicles

Srinivasan, Mohan Krishna; Lionel, Febin Daya John; Subramaniam, Umashankar; Blaabjerg, Frede; Elavarasan, Rajvikram Madurai; Shafiullah, GM; Khan, Irfan; Padmanaban, Sanjeevikumar

doi:10.3390/en13164212

Cited by 12 publications

(8 citation statements)

References 29 publications

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“…In this section, several verification tests are carried out in order to verify the performance of the proposed ARF-SOGI-PLL. The tests are made with co-simulations implemented under the processor-in-the-loop (PIL) [33,34] approach in MATLAB/Simulink with Code Composer Studio (CCS) and the digital signal controller TMS320F28335 from Texas Instruments.…”

Section: Resultsmentioning

confidence: 99%

A Modified SOGI-PLL with Adjustable Refiltering for Improved Stability and Reduced Response Time

2022

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The controls of most power electronic inverters connected to an electrical power system (EPS) rely on the precise determination of the voltage magnitude, frequency, and phase angle at the point of common coupling. One of the most widely used approaches for measuring these quantities is the phase-locked loop (PLL); however, the precision of this measurement is affected during transients in the EPS and is a function of the type of event and the architecture of the PLL. PLLs based on the second-order generalized integrator (SOGI) are widely used in power converter synchronization, offering an adaptive or fixed-parameter prefilter with low-pass and band-pass characteristics. This article proposes a variant of the SOGI-PLL that offers improved stability and a faster response time. This is accomplished by decoupling the effect of the SOGI’s gains and adding feedback. The modification is carried out in the state space model of the SOGI. Manipulating the attenuation moves the poles of the SOGI to improve the stability. The performance of the proposed PLL is verified and validated under the processor-in-the-loop (PIL) approach.

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Section: Resultsmentioning

confidence: 99%

A Modified SOGI-PLL with Adjustable Refiltering for Improved Stability and Reduced Response Time

2022

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“…Additionally, additive noise emulates fluctuations and disturbances due to transduction and other physical phenomena not considered in the model. Therefore, the motor supply voltage vector

V^{motor}_{abc}

is a function of the control voltage

V^{control}_{abc}

, the switching period

T_{sw}

, and the noise signal

N_{\mu, \sigma }(t)

[58].

\begin{equation} V^{motor}_{abc}(t) = V^{control}_{abc} {\left(t - T_{sw} \right)} + N_{\mu, \sigma }(t), \end{equation}

…”

Section: Real‐time Electro‐thermal Model Designmentioning

confidence: 99%

“…We assume that the inverter's efficiency is (almost) unity regarding power flow, accounting for losses through an algebraic model of losses on the active components. This assumption is widely used in designing control and monitoring algorithms for electric drives, allowing for reduced simulation times up to real-time throughput, crucial for monitoring purposes [58][59][60].…”

Section: Electric Power Drive Modelingmentioning

confidence: 99%

Real‐time monitoring and ageing detection algorithm design with application on SiC‐based automotive power drive system

Dini,

Basso,

Saponara

et al. 2024

IET Power Electronics

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The article describes an innovative methodology for the design and experimental validation of monitoring and anomaly detection algorithms, with a particular focus on the aging phenomenon, linked to the anomalous modification of the , in devices switching in power electronic systems integrated into modern high‐performance electrified vehicles. The case study concerns an electric drive for fully electrified vehicles, in which a three‐phase axial flux synchronous motor integrated into a wheel motor (Elaphe) is used and in which a high‐efficiency three‐phase inverter, designed with SiC technology (silicon carbide). The article proposes the design and validation of the innovative aging monitoring and detection system, in four consecutive phases. The first phase involves the creation of a real‐time model of electric drive, validated through experimental data extrapolated directly during a WLTP (Worldwide Harmonized Light Vehicle Test Procedure) test. The second phase consists of the creation of a virtual dataset representative of the aging phenomenon, via an anomaly injection procedure, emulating this phenomenon with a scaling factor (depending on the value of the ) on the current phase of the motor, relating to the inverter branch whose SiC device is affected. The third phase concerns the design of an estimator of the , based on an ANN (Artificial Neural Network) regression model, and involves a data manipulation phase with features extraction and reduction techniques. The fourth and final phase, involves the experimental validation of the method, through PIL (Processor‐In‐the‐Loop) tests, integrating the monitoring algorithm (consisting of a real‐time model and AI‐based regression model) on the NXPs32k144 embedded platform (based on Cortex‐M4), making the algorithm interact with the electric drive model on which anomaly injection is applied.

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“…38,39 These problems make sensorless control more attractive relative to the latter based on the speed sensor. Various estimation techniques for the rotor speed have been suggested in the literature in order to estimate the rotor speed in a closed loop utilizing the measured stator currents and voltages, like the full-order observer, 40 the extended Kalman filter, [41][42][43] the SMO, [44][45][46][47][48] the Luenberger observer 49,50 and the model reference adaptive system (MRAS). [51][52][53][54][55][56][57][58][59][60][61] Mostly, sensorless algorithms have proved their good performance at high-and mediumspeed ranges.…”

Section: Introductionmentioning

confidence: 99%

“…It can be chosen thanks to its ease of implementation, good robustness under disturbance and parameter uncertainties, and low calculation burden requirements. [44][45][46][47][48] Some structures of SMOs are developed 44,46 when the rotor speed is defined as an adaptive quantity. In these observer structures, the rotor speed is estimated through the observation errors, which causes a delay in the estimation loop.…”

Section: Introductionmentioning

confidence: 99%

Design and Xilinx Virtex-field-programmable gate array for hardware in the loop of sensorless second-order sliding mode control and model reference adaptive system–sliding mode observer for direct torque control of induction motor drive

Krim

Mimouni

2022

Proceedings of the Institution of Mechanical Engineers, Part I:

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This article aims first to propose an improved space vector modulation–direct torque control in order to enhance the induction motor performance using: (1) a super-twisting controller and (2) a novel model reference adaptive system based on a sliding mode observer. Second, due to the complexity of the suggested control algorithm, this article deals also with a hardware implementation on a field-programmable gate array board. Indeed, the field-programmable gate array is mainly chosen to reduce the execution time, thanks to its parallel processing which significantly improves the quality of the control system by reducing the sampling period, and consequently the delays in the control loop. Besides, the super-twisting controller is proposed to enhance the speed regulation loop which is a second-order sliding mode control technique that uses a continuous control law to prevent the chattering phenomenon induced by the first-order sliding mode control technique. Moreover, the high performance control requires information about the rotor speed which can be obtained by a sensor. Generally, the use of the speed sensor increases the system cost and size, and reduces its system reliability. Therefore, a combination between a model reference adaptive system observer and a sliding mode observer is suggested for speed estimation and overcoming the sensitivity of the classical model reference adaptive system observer against uncertainties and stator resistance variations. The performance of the proposed space vector modulation--direct torque control--super-twisting controller with the model reference adaptive system--sliding mode observer algorithm of an induction motor is verified through simulation, hardware co-simulation and experimental validation utilizing a field-programmable gate array Virtex-5-ML507 board. The performance of the suggested sensorless control method is compared also with other recent published schemes.

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Real-Time Processor-in-Loop Investigation of a Modified Non-Linear State Observer Using Sliding Modes for Speed Sensorless Induction Motor Drive in Electric Vehicles

Cited by 12 publications

References 29 publications

A Modified SOGI-PLL with Adjustable Refiltering for Improved Stability and Reduced Response Time

A Modified SOGI-PLL with Adjustable Refiltering for Improved Stability and Reduced Response Time

Real‐time monitoring and ageing detection algorithm design with application on SiC‐based automotive power drive system

Design and Xilinx Virtex-field-programmable gate array for hardware in the loop of sensorless second-order sliding mode control and model reference adaptive system–sliding mode observer for direct torque control of induction motor drive

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