Dynamic Modelling and Virtual Simulation of Digital Duty-Cycle Modulation Control Drivers
 B. Mammano, “Resonnant mode converter topologies, TOP IC1, pp. 1-1/1-11, © Unitode Corporation.
 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.
 Abraham Pressman, “Switching and linear power converter design, Volume 2”, 372 pages, Hayden Book Co., 1977.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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.
 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
 Mbihi, Nneme, Kom, A Suboptimal Nonlinear Duty-cycle Modulation Scheme, , Journal of electronic design technology, Vol. 7, Issue 1, pp. 22-31, 2016.
 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.