A new automotive controllable differential is proposed and tested, firstly in software environment and, successively, following a hardware in the loop procedure based on the employment of the physical prototype. The device is based on the employment of magnetorheological fluid, whose magnetization allows to generate the locking torque and, consequently, the corrective yaw moment. A vehicle model has been derived and adopted for the design of a yaw moment controller based on the sliding mode approach. Some feedbacks requested by the controller have been estimated by means of an extended Kalman filter. The obtained results show the effectiveness of the device in terms of vehicle dynamics improvement. Indeed, the results reached by the vehicle in presence of the new differential confirm the improved performances for both steady and unsteady state manoeuvres. Moreover, the hardware in the loop testing allows to overcome the limits due to the modelling of the differential, fully validating the physical prototype.

A Controllable Engine Cooling Pump Based on a Magnetorheological Fluid Clutch / Marchetti, Mario; Russo, Riccardo; Strano, Salvatore; Terzo, Mario. - In: SAE INTERNATIONAL JOURNAL OF ENGINES. - ISSN 1946-3936. - 10:5(2017). [10.4271/2017-24-0160]

A Controllable Engine Cooling Pump Based on a Magnetorheological Fluid Clutch

RUSSO, RICCARDO;STRANO, salvatore;TERZO, MARIO
2017

Abstract

A new automotive controllable differential is proposed and tested, firstly in software environment and, successively, following a hardware in the loop procedure based on the employment of the physical prototype. The device is based on the employment of magnetorheological fluid, whose magnetization allows to generate the locking torque and, consequently, the corrective yaw moment. A vehicle model has been derived and adopted for the design of a yaw moment controller based on the sliding mode approach. Some feedbacks requested by the controller have been estimated by means of an extended Kalman filter. The obtained results show the effectiveness of the device in terms of vehicle dynamics improvement. Indeed, the results reached by the vehicle in presence of the new differential confirm the improved performances for both steady and unsteady state manoeuvres. Moreover, the hardware in the loop testing allows to overcome the limits due to the modelling of the differential, fully validating the physical prototype.
2017
A Controllable Engine Cooling Pump Based on a Magnetorheological Fluid Clutch / Marchetti, Mario; Russo, Riccardo; Strano, Salvatore; Terzo, Mario. - In: SAE INTERNATIONAL JOURNAL OF ENGINES. - ISSN 1946-3936. - 10:5(2017). [10.4271/2017-24-0160]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/683147
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