Electromechanical Active Suspension Demonstration for Off-Road Vehicles

Weeks, D.A.; Beno, J.H.; Guenin, A. M.; Bresie, D. A.

doi:10.4271/2000-01-0102

Cited by 17 publications

(7 citation statements)

References 3 publications

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“…While a conventional shock absorber dissipates mechanical energy into heat with a fixed damping coefficient, a regenerative shock absorber converts the mechanical vibration energy into battery charge via an appropriate charging circuit [4], [5]. In addition, this type of shock absorber can provide a variable damping coefficient through proper control.…”

Section: Introductionmentioning

confidence: 99%

Regenerative Shock Absorber Using a Two-Leg Motion Conversion Mechanism

Maravandi

Moallem

2015

IEEE/ASME Trans. Mechatron.

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This paper presents the development of a novel regenerative shock absorber sized for a passenger car suspension system. The shock absorber includes a simple and highly efficient motion converter called a two-leg mechanism, a planetary gearhead, and a brushless three-phase rotary machine. The design and analysis of the regenerative shock absorber are presented by considering the dynamics and efficiency of the electromechanical device. The performance of the regenerative damper is evaluated under sinusoidal excitation inputs for typical amplitudes and frequencies in a vehicular suspension system. Experimental results show that a damping coefficient of 1720 N·s/m can be achieved by controlling the external loads. Furthermore, a mechanical energy conversion efficiency between 0.71 and 0.84 is achieved, which is considerably higher than other mechanisms reported in the literature, such as ball screw, rack-and-pinion, and linear mechanisms.Index Terms-Motion conversion, regenerative damping, regenerative shock absorber.

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Section: Introductionmentioning

confidence: 99%

Regenerative Shock Absorber Using a Two-Leg Motion Conversion Mechanism

Maravandi

Moallem

2015

IEEE/ASME Trans. Mechatron.

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“…Suda et al [4] and Beno et al [5][6] independently investigated vehicle using electromagnetic suspension with rack-pinion mechanism. This study resulted in significant enhancement of limit speed and handling performance of the vehicle.…”

Section: Introductionmentioning

confidence: 99%

Investigation of Vehicle Parameters in Regenerative Coil Suspension Design

Selvan¹,

Navin²,

k³

2014

Int. J. Vehicle Structures and Systems

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Regenerative type suspensions are employed to recover energy that is unproductively dissipated in dampers in automotive suspension system. In order to effectively recover energy from suspension, an attempt has been made in the design to capitalize the vehicle parameters and concoct a suitable linear generator in unison with helical spring. The performance characteristics drawing suitable inferences between the vehicle parameters and suspension specifications are well investigated.

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“…When the coil and magnet assemblies move relatively with each other, electricity will be produced. There three configurations to produce electricity, including a linear electromagnetic generator [7,8,9], rack-pinion [10,11,12] and ball-screw [13,14,15]. Although the linear electromagnetic generator has a simple construction and works steadily, its efficiency is relatively low.…”

Section: Introductionmentioning

confidence: 99%

Development of a Hydraulic Energy Harvester for Shock Absorber

Xie¹,

Li²,

Cai³

et al. 2018

Proceedings of the 2018 International Conference on Computer Science, Electronics and Communication Engineering (CSECE 2018)

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This project is to design and manufacture a novel shock absorber with energy harvesting to reclaim vibration energy from automotive suspension system during driving. In order to improve safety and comfort, shock absorbers are used in automotive to remove vibration energy during driving, who adopt hydraulic system to convert vibration energy into heat so that vibration can be removed from the automotive suspension system. Obviously, the vibration energy is wasted. In this project, on the basis of satisfying the function request of automotive shock absorber, a mechanism for harvesting vibration energy is added to shock absorber to reclaim the vibration energy and convert it to electricity. Analysis shows that all four shock absorbers in one car can generate 2~4kW electricity at 0.25~0.5 m/s RMS suspension velocity, which can power all electronics in car and reduce automotive emission.

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Electromechanical Active Suspension Demonstration for Off-Road Vehicles

Cited by 17 publications

References 3 publications

Regenerative Shock Absorber Using a Two-Leg Motion Conversion Mechanism

Regenerative Shock Absorber Using a Two-Leg Motion Conversion Mechanism

Investigation of Vehicle Parameters in Regenerative Coil Suspension Design

Development of a Hydraulic Energy Harvester for Shock Absorber

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