Excellence in Research and Innovation for Humanity

International Science Index


Select areas to restrict search in scientific publication database:
10007918
Dynamic Modelling and Virtual Simulation of Digital Duty-Cycle Modulation Control Drivers
Authors:
Abstract:
This paper presents a dynamic architecture of digital duty-cycle modulation control drivers. Compared to most oversampling digital modulation schemes encountered in industrial electronics, its novelty is founded on a number of relevant merits including; embedded positive and negative feedback loops, internal modulation clock, structural simplicity, elementary building operators, no explicit need of samples of the nonlinear duty-cycle function when computing the switching modulated signal, and minimum number of design parameters. A prototyping digital control driver is synthesized and well tested within MATLAB/Simulink workspace. Then, the virtual simulation results and performance obtained under a sample of relevant instrumentation and control systems are presented, in order to show the feasibility, the reliability, and the versatility of target applications, of the proposed class of low cost and high quality digital control drivers in industrial electronics.
Digital Article Identifier (DAI):

References:

[1] B. Mammano, “Resonnant mode converter topologies, TOP IC1, pp. 1-1/1-11, © Unitode Corporation.
[2] H. Inose, Y. Yasuda and J. Marakami, “A telemetering system by code modulation, delta-sigma modulation,” IRE Trans. on Space, Electronics and Telemetry, SET-8, pp. 204-209, Sept 1962.
[3] Abraham Pressman, “Switching and linear power converter design, Volume 2”, 372 pages, Hayden Book Co., 1977.
[4] J. Mbihi, B. Ndjali, and M. Mbouenda, “Modelling and simulations of a class of duty cycle modulators for industrial instrumentation,” Iranian J. Electr. Comput. Eng., vol. 4, no. 2, pp. 121–128, 2005.
[5] N. Doley and A. Kornfeld, “Comparison of Sigma-Delta converter circuit architectures in digital CMOS technology”, Journal of circuits, systems ans computers”, vol. 14, No 3, pp. 515-532, © World scientific publishing company, 2005.
[6] Y. Matsuya, et al, “A 16 bit oversampling A-to-D conversion technology using triple-integration noise shaping,” IEEE J. of Solid-State Circuits, Vol. SC-22, No. 6, pp. 921-929, Dec. 1987.
[7] K. R. Rekha, S. Vashishtha, “A survey on FPGA based spaced vector PWM motion control, International Journal of Advanced Research in Electrical, Electronics and instrumentation engineering”, vol. 4, January pp. 282-288, 2015.
[8] B. J. Patella, A. Prodic, “High frequency digital PWM controller IC for DC-DC converters”, IEEE transactions on power electronics, vol. 18, N° 1, pp. 438-446, 2003.
[9] S. K. Mazunder, M. Tahir, S. L. Kamizetty, “Wireless PWM control of a DC-DC buck converter”, IEEE transactions on power electronics, Vol. 20, N°6, pp. 1280-1286, 2005.
[10] V. Sabarinath and K. Sivanandam, “Design and implementation of FPGA-based high resolution digital pulse width modulation”, International Journal of Advanced Research in Electronics and Communications engineering, Vol. 2, Issue 5, 563-567, 2013.
[11] A. Tashakori, M. Hassanudeen and M. Ektesabi, “FPGA-based controller drive of BLCD motor using digital PDM technique”, IEEE PEDS, 9-12 June 2015, Sydney.
[12] S. Chander, P. Agarwal and I. Gupta, “ASIC and FPGA based DPWM architectures for single phase and single output DC-DC converter: a review”, Central European Journal of Engineering, Vol 3, Issue 4, pp. 620-643, 2013.
[13] E. Koutroulis, A. Dollas and K. Kalaitzakis, “High frequency pulse width modulation implementation using FPGA and CPLD ICs”, Journal of systems architecture, © Elsevier, Vol 52, pp. 332-344, 2006.
[14] Mbihi, J., Ndjali Beng, F., Kom, M., and Nneme Nneme, L. A novel analog-to-digital conversion technique using nonlinear duty-cycle modulation”, International Journal of electronics and computer science engineering, 1(3), 2012, pp. 818-825.
[15] I. Mbihi, L. Nneme Nneme, “A Multi-Channel Analog-To-Digital Conversion Technique Using Parallel Duty-Cycle Modulation”. International Journal of Electronics and Computer Science Engineering. 2012; 1(3):826–833p.
[16] J. Mbihi, L. Nneme Nneme, “A Novel Control Scheme for Buck Power Converters using Duty–Cycle Modulation”. International Journal of Power Electronics, 2013;5(3/4):185–199p.
[17] Nneme Nneme L., Mbihi J., Modeling and Simulation of a New Duty–Cycle Modulation Scheme for Signal Transmission System, American Journal of Electrical and Electronic Engineering (AJEEE). 2014; 2(3): 82–87p.
[18] Moffo Lonla B., Jean Mbihi, Leandre Nneme Nneme. A Low Cost and High Quality Duty–Cycle Modulation Scheme and Applications. International Journal of Electrical, Electronic Science and Engineering. 2014; 8(3):82–88p.
[19] Moffo Lonla B., Mbihi J., Nneme Nneme L., Kom M., A Novel Digital–to–Analog Conversion Technique using Duty-Cycle Modulation. International Journal of Circuits, Systems and Signal processing. 2013; 7(1):42–49p
[20] Mbihi, Nneme, Kom, A Suboptimal Nonlinear Duty-cycle Modulation Scheme, , Journal of electronic design technology, Vol. 7, Issue 1, pp. 22-31, 2016.
[21] Moffo Lonla B., Mbihi J. A Novel Digital Duty–Cycle Modulation Scheme for FPGA-Based Digital-to-Analog Conversion. IEEE Transaction on circuits and system II. 2015; 62(6):543–547p.
Vol:12 No:01 2018
Vol:11 No:12 2017Vol:11 No:11 2017Vol:11 No:10 2017Vol:11 No:09 2017Vol:11 No:08 2017Vol:11 No:07 2017Vol:11 No:06 2017Vol:11 No:05 2017Vol:11 No:04 2017Vol:11 No:03 2017Vol:11 No:02 2017Vol:11 No:01 2017
Vol:10 No:12 2016Vol:10 No:11 2016Vol:10 No:10 2016Vol:10 No:09 2016Vol:10 No:08 2016Vol:10 No:07 2016Vol:10 No:06 2016Vol:10 No:05 2016Vol:10 No:04 2016Vol:10 No:03 2016Vol:10 No:02 2016Vol:10 No:01 2016
Vol:9 No:12 2015Vol:9 No:11 2015Vol:9 No:10 2015Vol:9 No:09 2015Vol:9 No:08 2015Vol:9 No:07 2015Vol:9 No:06 2015Vol:9 No:05 2015Vol:9 No:04 2015Vol:9 No:03 2015Vol:9 No:02 2015Vol:9 No:01 2015
Vol:8 No:12 2014Vol:8 No:11 2014Vol:8 No:10 2014Vol:8 No:09 2014Vol:8 No:08 2014Vol:8 No:07 2014Vol:8 No:06 2014Vol:8 No:05 2014Vol:8 No:04 2014Vol:8 No:03 2014Vol:8 No:02 2014Vol:8 No:01 2014
Vol:7 No:12 2013Vol:7 No:11 2013Vol:7 No:10 2013Vol:7 No:09 2013Vol:7 No:08 2013Vol:7 No:07 2013Vol:7 No:06 2013Vol:7 No:05 2013Vol:7 No:04 2013Vol:7 No:03 2013Vol:7 No:02 2013Vol:7 No:01 2013
Vol:6 No:12 2012Vol:6 No:11 2012Vol:6 No:10 2012Vol:6 No:09 2012Vol:6 No:08 2012Vol:6 No:07 2012Vol:6 No:06 2012Vol:6 No:05 2012Vol:6 No:04 2012Vol:6 No:03 2012Vol:6 No:02 2012Vol:6 No:01 2012
Vol:5 No:12 2011Vol:5 No:11 2011Vol:5 No:10 2011Vol:5 No:09 2011Vol:5 No:08 2011Vol:5 No:07 2011Vol:5 No:06 2011Vol:5 No:05 2011Vol:5 No:04 2011Vol:5 No:03 2011Vol:5 No:02 2011Vol:5 No:01 2011
Vol:4 No:12 2010Vol:4 No:11 2010Vol:4 No:10 2010Vol:4 No:09 2010Vol:4 No:08 2010Vol:4 No:07 2010Vol:4 No:06 2010Vol:4 No:05 2010Vol:4 No:04 2010Vol:4 No:03 2010Vol:4 No:02 2010Vol:4 No:01 2010
Vol:3 No:12 2009Vol:3 No:11 2009Vol:3 No:10 2009Vol:3 No:09 2009Vol:3 No:08 2009Vol:3 No:07 2009Vol:3 No:06 2009Vol:3 No:05 2009Vol:3 No:04 2009Vol:3 No:03 2009Vol:3 No:02 2009Vol:3 No:01 2009
Vol:2 No:12 2008Vol:2 No:11 2008Vol:2 No:10 2008Vol:2 No:09 2008Vol:2 No:08 2008Vol:2 No:07 2008Vol:2 No:06 2008Vol:2 No:05 2008Vol:2 No:04 2008Vol:2 No:03 2008Vol:2 No:02 2008Vol:2 No:01 2008
Vol:1 No:12 2007Vol:1 No:11 2007Vol:1 No:10 2007Vol:1 No:09 2007Vol:1 No:08 2007Vol:1 No:07 2007Vol:1 No:06 2007Vol:1 No:05 2007Vol:1 No:04 2007Vol:1 No:03 2007Vol:1 No:02 2007Vol:1 No:01 2007