Nonlinear System Modeling, Optimal Cam Design, and Advanced System Control for an Electromechanical Engine Valve Drive

Qiu Y.; Perreault D. J.; Keim T. A.; Kassakian J. G.

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Nonlinear System Modeling, Optimal Cam Design, and Advanced System Control for an Electromechanical Engine Valve Drive

机译：机电发动机气门驱动器的非线性系统建模，最佳凸轮设计和高级系统控制

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A cam-based shear force-actuated electromechanical valve drive system offering variable valve timing in internal combustion engines was previously proposed and demonstrated. To transform this concept into a competitive commercial product, several major challenges need to addressed, including the reduction of power consumption, transition time, and size. As shown in this paper, by using nonlinear system modeling, optimizing cam design, and exploring different control strategies, the power consumption has been reduced from 140 to 49 W (65%), the transition time has been decreased from 3.3 to 2.7 ms (18%), and the actuator torque requirement has been cut from 1.33 to 0.30 N·m (77%).

机译：先前提出并演示了基于凸轮的剪切力致动的机电阀驱动系统，该系统在内燃机中提供可变的气门正时。为了将这一概念转变为具有竞争力的商业产品，需要解决几个主要挑战，包括降低功耗，过渡时间和尺寸。如本文所示，通过使用非线性系统建模，优化凸轮设计以及探索不同的控制策略，功耗从140 W降低至49 W（65％），过渡时间从3.3 ms降低至2.7 ms（ 18％），并且执行器扭矩要求从1.33降低到0.30 N·m（77％）。

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《Mechatronics, IEEE/ASME Transactions on》 |2012年第6期|p.1098-1110|共13页
作者
Qiu Y.; Perreault D. J.; Keim T. A.; Kassakian J. G.;
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Massachusetts Institute of Technology, Cambridge, USA;

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正文语种 eng
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Nonlinear friction model; open-loop control; optimal cam design; variable valve timing (VVT);

机译：非线性摩擦模型;开环控制;最佳凸轮设计;可变气门正时（VVT）;
入库时间 2022-08-17 13:22:32

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Nonlinear System Modeling, Optimal Cam Design, and Advanced System Control for an Electromechanical Engine Valve Drive

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