Robust Absolute Stabilization of Time-Varying Delay Systems with Maximum Admissible Perturbed Bound
p.103
p.103
Analysis and Simulation of DC-Turned Off High Temperature Superconducting Fault Current Limiter with Saturated Iron Core
p.111
p.111
Research on the Control System of Sort Instrument of Cigarette Draw Resistance
p.117
p.117
Multi-Source Information Fusion Based on Data Driven
p.121
p.121
The Modeling of Electromagnetic Linear Actuator for Vehicle Active Suspension System
p.127
p.127
Cerebral Circulation Network Modeling and Averaging Pathological Analysis
p.133
p.133
Denoising of ECG Signal Based on Empirical Mode Decomposition and Adaptive Noise Cancellation
p.140
p.140
A Existence Theory for Positive Solutions to Superlinear Repulsive Singular Differential Equations with Impulse Effects
p.149
p.149
Fault Diagnosis of Automobile ECUs with Data Mining Technologies
p.156
p.156
The Modeling of Electromagnetic Linear Actuator for Vehicle Active Suspension System
Abstract:
A new type of electromagnetic linear actuator for vehicle active suspension system is designed. Combined with the finite element analysis tool and electromagnetic induction principle, the finite element model and mathematic model are built up individually. Based on the simulation results, a prototype of electromagnetic linear actuator is developed. By comparison of the finite element simulation results and the experimental data, it shows the correctness of actuator design and simulation model.
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Info:
Periodical:
Applied Mechanics and Materials (Volumes 40-41)
Pages:
127-132
Citation:
Online since:
November 2010
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