Crank Cam Signal Generator Using NXP Model Based Design Toolbox

Senol Gulgonul;Nedim Sözbir

doi:10.33793/acperpro.02.03.75

The Academic Perspective Procedia publishes Academic Platform symposiums papers as three volumes in a year. DOI number is given to all of our papers.
Publisher : Academic Perspective

Journal DOI : 10.33793/acperpro
Journal eISSN : 2667-5862

Year :2019, Volume 2, Issue 3, Pages: 687-695

22.11.2019

Crank Cam Signal Generator Using NXP Model Based Design Toolbox

Senol Gulgonul;Nedim Sözbir

https://doi.org/10.33793/acperpro.02.03.75

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Abstract

In this study, a cam-crank signal generator developed using Simulink and NXP Model Based Design Toolbox. Developed models compiled and flashed into NXP MPC5744P microcontroller. Generated cam and crank signals were measured using an oscilloscope for verification. Algorithm and Simulink models are describes in detail such that students and researchers can replicate and use in their studies using NXP or different microcontroller targets.

Keywords: Crank, cam, model based design, NXP, diesel engine

References

[1] Bauer H. Diesel Engine Management. Robert Bosch GmbH. 2003.
[2] Infineon Technologies AG. TLE 4922 Cost Efficient Hall Sensor User Manual. InfineonTechnologies AG. 2017.
[3] Lian H, Cai Z, Luo W, Zeng C and Fang D., "Matlab/Simulink based crankshaft and camshaftsignal simulation model for SI engine," 35th Chinese Control Conference (CCC), Chengdu,2016, pp. 8896-8901.
[4] Drosescu R. P Virtual engine management simulator for educational purposes. IOP Conf. Ser.2017: Mater. Sci. Eng. 252 012099.
[5] http://mcs.woodward.com/content/motohawk/Documentation/MotoHawk2015bSP0/HTML/MotoHawk_lib_Blocks/EncoderDefinition.html
[6] Mike P. AN2897 Using the eTPU Angle Clock. Freescale Semiconductor Application Note.2004.
[7] NXP Semiconductors. MPC5744P Data Sheet. 2017.
[8] http://support.openecu.com/doc_user/openecu_user_guide_simulink_chunk/pan_crank_wheel_config.html
[9] Hermansson E, Serti T. Speed Sensor Simulator Box. Bachelor thesis, Department of Signalsand Systems Chalmers University of Technology, Gothenburg, Sweden. 2015.
[10] Brejl M. AN3801 Using the eTPU Angle Clock. Freescale Semiconductor Application Note.2009.
[11] Hanselmann H. DSP-Based Automotive Sensor Signal Generation for Hardware-in-the-LoopSimulation. SAE Transactions, 1994. 103, 85-91.

Cite

@article{acperproISITES2019ID75, author={Gulgonul, Senol and Sözbir, Nedim}, title={Crank Cam Signal Generator Using NXP Model Based Design Toolbox}, journal={Academic Perspective Procedia}, eissn={2667-5862}, volume={2}, year=2019, pages={687-695}}
Gulgonul, S. , Sözbir, N.. (2019). Crank Cam Signal Generator Using NXP Model Based Design Toolbox. Academic Perspective Procedia, 2 (3), 687-695. DOI: 10.33793/acperpro.02.03.75
%0 Academic Perspective Procedia (ACPERPRO) Crank Cam Signal Generator Using NXP Model Based Design Toolbox% A Senol Gulgonul , Nedim Sözbir% T Crank Cam Signal Generator Using NXP Model Based Design Toolbox% D 11/22/2019% J Academic Perspective Procedia (ACPERPRO)% P 687-695% V 2% N 3% R doi: 10.33793/acperpro.02.03.75% U 10.33793/acperpro.02.03.75

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