Simulation of Foundation Fieldbus Manchester Coded 31.25 kbps H1 Bus Using MATLAB and Simulink

Mostafa Abotaleb*1 https://orcid.org/0000-0002-2670-5928     Janusz Mindykowski2 https://orcid.org/0000-0002-5359-0433     Bolesław Dudojć3 https://orcid.org/0000-0002-2966-1828     Romuald Maśnicki4 https://orcid.org/0000-0002-4224-528X     

* Corresponding author

1

PhD student, Doctoral School of Gdynia Maritime University, Morska 81-87, 81-225 Gdynia, Poland,
e-mail: m.abotaleb@sd.umg.edu.pl

2

Gdynia Maritime University, Morska 81-87, 81-225 Gdynia, Poland,
Faculty of Electrical Engineering, Department of Marine Electrical Power Engineering, e-mail: j.mindykowski@we.umg.edu.pl

3

Gdynia Maritime University, Morska 81-87, 81-225 Gdynia, Poland,
Faculty of Electrical Engineering, Department of Marine Electrical Power Engineering, e-mail: b.dudojc@we.umg.edu.pl

4

Gdynia Maritime University, Morska 81-87, 81-225 Gdynia, Poland,
Faculty of Electrical Engineering, Department of Marine Electrical Power Engineering, e-mail: r.masnicki@we.umg.edu.pl

Abstract: 

The purpose of this article is to provide an understanding of possible techniques through which a H1 31.25 kbps Foundation Fieldbus Manchester coded signal can be modulated or demodulated. This understanding will be rendered through MATLAB and SIMULINK models, simulating both ideal and practical as well as noiseless and noisy conditions during the modulation/demodulation process. The simulation models will differentiate between the modulation methods adopted to generate ideal rectangular as well as practical trapezoidal waveforms for the Manchester coded signal. The analysis of the simulation results will describe the mechanisms through which distortion induced by additive white Gaussian noise can be eliminated during the demodulation process either by using recursive filters, such as a Kalman filter, or by calculating wave energy levels in specific time intervals.

Keywords: 
Foundation Fieldbus, Manchester Coding, Kalman Filter, Trapezoidal Waveform, SIMULINK, MATLAB
Issue: 
123
Pages: 
18
31
Doi: 
10.26408/123.02
Submitted: 
18.05.2022
Accepted: 
24.05.2022
Published: 
30.09.2022
Download full text in pdf: 
PDF icon SJ_123_02.pdf

This article is an open access article distributed under a Creative Commoms Attribution (CCBY 4.0) licence

References: 

Abotaleb, M., Mindykowski, J., Dudojć, B., Maśnicki, R., 2022, Digital Communication Links Cooperating with the Analog 4-20 mA Standard for Marine Applications, Bulletin of the Polytechnic Institute of Iași, Electrical Engineering, Power Engineering, Electronics Section, vol. 67, pp. 21–44.

Haykin, S., 2001, Kalman Filtering and Neural Networks, John Wiley & Sons, New York.

Hu, Z., Sun, J., 2010, All-optical Logic NOT Gate for Manchester Encoded Signal Using a Reflective Semiconductor Optical Amplifier, Optica Applicata, vol. XL, no. 1.

Jameel, L., 2018, Manchester Coding and Decoding Generation Theoretical and Experimental Design, American Academic Scientific Research Journal for Engineering, Technology and Sciences, vol. 42, no. 1.

Mehta, B.R., Reddy, Y.J., 2016, Applying Foundation Fieldbus, 3rd ed., International Society of Automation, North Carolina, USA.

Mendez, X., Protocolo Fieldbus, Monografias.com S.A., https://www.monografias.com/tra­bajos82/­pro­to­colo-fieldbus/protocolo-fieldbus2 (14.05.2022).

Pei, Y., Biswas, S., Fussel, D.S., Pingali, K., 2019, An Elementary Introduction to Kalman Filtering, Communications of the ACM, vol. 62, no. 11, pp. 122–133.

Satterfield, G., 2019, Designing Foundation Fieldbus and Profibus PA Devices with the DAC874xH Modem Family, Texas Instruments, Texas, USA.

Stackoverflow, 2014, Equation for trapezoidal wave, https://stackoverflow.com/ques­tions/­11041498/­equa­tion-for-trapezoidal-wave-equation#:~:text=1%3A0%3B%20y%20%3A%3D%20H,­wave%­2C%20with%20constant%20unitary%20velocity (14.05.2022).

Tooley, M., 2009, Plant and Process Engineering 360, Newnes an Imprint of Elsevier, Oxford.

Verhappen, I., Pereira, A., 2012, Foundation Fieldbus, 4th ed., International Society of Automation, Eindhoven, Netherlands.

Viegas, V., Pereira, J.M.D., 2000, Foundation Fieldbus: From Theory to Practice, International Journal of Computing, vol. 0.

Welch, G., Bishop, G., 2006, An Introduction to the Kalman Filter, Optica Applicata, vol. XL, no. 1.

Youngjoo, K., Hyochoong, B., 2018, Introduction to Kalman Filter and Its Applications, Book: Kalman Filter, Intechopen, London, England.

Mostafa Abotaleb

Citation pattern: Abotaleb M., Mindykowski J., Dudojć B., Maśnicki R., Simulation of Foundation Fieldbus Manchester Coded 31.25 kbps H1 Bus Using MATLAB and Simulink, Scientific Journal of Gdynia Maritime University, No. 123, pp. 18-31, 2022

BibTeX     EndNote