Design of a 3-Stage Voltage Controller for EMV Actuation in SI Engines

Design of a 3-Stage Voltage Controller for EMV Actuation in SI Engines

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Variable valve timing (VVT) provides SI engines several significant benefits in fuel economy, exhaust emission, and engine performance. Among all VVT mechanisms, electromagnetic valve (EMV) is a positive one by providing very high flexibility in valve timings and possibility of cylinder-by-cylinde...

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Bibliographic Details
Main Authors: Yaojung Shiao, Wei-Da Pan
Format: Article
Language:English
Published: Taiwan Association of Engineering and Technology Innovation 2012-10-01
Series:International Journal of Engineering and Technology Innovation
Subjects:
3-stage voltage control
variable valve timing
electromagnetic valve
Online Access:http://sparc.nfu.edu.tw/~ijeti/download/V2-no4-273-282.pdf
Description
Summary:Variable valve timing (VVT) provides SI engines several significant benefits in fuel economy, exhaust emission, and engine performance. Among all VVT mechanisms, electromagnetic valve (EMV) is a positive one by providing very high flexibility in valve timings and possibility of cylinder-by-cylinder VVT control. This paper presents a simple 3-stage voltage control method for EMV actuation to effectively reduce the contact velocity between EMV and valve seat. A voltage pattern for EMV actuation is derived first by a fuzzy logic controller. Then, this pattern is simplified into 3 level voltage in which the voltage magnitude and duration are analyzed and optimized. Simulation results show that the 3-stage voltage controller offers simple control algorithms and acceptable performance with low impact velocity.
ISSN:2223-5329
2226-809X

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