Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters

Abdeldjebbar Abdelkader; Hamid Azzedine

Review

Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters

Year 2018, Volume: 18 Issue: 2, 325 - 332, 03.08.2018

Abdeldjebbar Abdelkader Hamid Azzedine

Abstract

DOI: 10.26650/electrica.2018.96182

This article describes the design of a micro-transformer in monolithic technology for high frequencies comprising planar type coil and a magnetic circuit made of several layers of materials. This micro-transformer is integrated into a micro-converter of fly-back type. The Mohan method was used to determine the geometric parameters and the S-parameters were used to calculate technological parameters. The study of electromagnetic effects allowed us to show the role of ferrite, which is used to confine the magnetic field lines and minimize disruption of the neighbor ship. To validate the dimensioning of the geometrical and technological parameters, with the help of the software PSIM6.0, we simulated the equivalent electrical circuit of the converter containing the electrical circuit of the dimensioned planar micro-transformer

Keywords

Fly-back converter, Planar Micro-Transformer, S-parameters, inductive elements, passive

References

1. K. Youssouf, “Modélisation des transformateurs planaires intègres. Optics Photonic”, Université Jean Monnet-Saint- Etienne, France, 2014.
2. D. D. Yaya, “Conception, réalisation et caractérisation d’inductances planaires à couches magnétiques”, Université Jean Monnet-Saint-Etienne, France, 2013.
3. B. Vallet, «Étude et conception d’une nouvelle alimentation à découpage à transfert d’énergie mixte basée sur un composant passif LCT intégré” Université Joseph Fourier, 2008.
4. A. Besri, “Modélisation analytique et outils pour l’optimisation des transformateurs de puissance haute fréquence planars”, Université de Grenoble, 2011.
5. T. H. Trinh, “Réseaux de micro convertisseurs, les premiers pas vers le circuit de puissance programmable”, Energie électrique, Université de Grenoble, 2013.
6. R. Melati, A. Hamid, F. Baghdad, F. Taibi, “Simulation d’une micro bobine”, 4ème Conférence Internationale sur l’Electrotechnique, Oran, Algeria, 2009.
7. S. Verma, J. M. Cruz, “On-chip Inductors and Transformers”, Bibliometrics, 1999.
8. F. K. Wong, B. Eng, M. Phil, “High Frequency Transformer for Switching Mode Power Supplies”, School of Microelectronic Engineering, Faculty of Engineering and Information Technology, Griffith University, Brisbane, Australia, 2004.
9. V. Boyer, N. Godefroy, “Alimentation à découpage Flyback”, M1-IUP GEII, Université Joseph Fourier IEEE.
10. M. Derkaoui, A. Hamid,T. Lebey, R. Melati, “Design and Modeling of an Integrated Micro-Transformer in a Flyback Converter”, TELKOMNIKA, vol. 11, no. 4, pp. 669-682 , 2013.
11. D. M. Pozar “Microwave Engineering”, 2nd Edition, Johnwiley and Sons Inc., 1998, pp.19-20, pp. 182-250.
12. S. Mohan, C.P. Yue, M. Del Mar Hershenson, S. Wong, T.H. Lee, “Modeling and characterization of on-chip transformers”, International Electron Devices Meeting 1998, 1998, pp. 531-534.
13. S. S. Mohan, “The design modeling and optimization of on-chip inductor and transformer circuits”, 1999.
14. C Alonso, “Contribution à l’optimisation, la gestion et le traitement de l’énergie”, Université Paul Sabatier Toulouse III, 2003.
15. X. Margueron “Elaboration sans prototypage du circuit équivalent des transformateurs de type planar”, Université Joseph Fourier, 2006.
16. R. Thüringer “Characterization of Integrated Lumped Inductors and Transformers”, Wien, 2002.
17. A. Weisshaar. “Analysis and Modeling of Monolithic On- Chip Transformers on Silicon”, Oregon State University, 2005.

Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters

Year 2018, Volume: 18 Issue: 2, 325 - 332, 03.08.2018

Abdeldjebbar Abdelkader Hamid Azzedine

Abstract

DOI: 10.26650/electrica.2018.96182

This article describes the design of a
micro-transformer in monolithic technology for high frequencies comprising
planar type coil and a magnetic circuit made of several layers of materials.
This micro-transformer is integrated into a micro-converter of fly-back type.
The Mohan method was used to determine the geometric parameters and the
S-parameters were used to calculate technological parameters. The study of
electromagnetic effects allowed us to show the role of ferrite, which is used
to confine the magnetic field lines and minimize disruption of the neighbor ship.
To validate the dimensioning of the geometrical and technological parameters,
with the help of the software PSIM6.0, we simulated the equivalent electrical
circuit of the converter containing the electrical circuit of the dimensioned
planar micro-transformer

Keywords

Planar Micro-Transformer, inductive elements, Fly-back converter, S-parameters, passive

References

1. K. Youssouf, “Modélisation des transformateurs planaires intègres. Optics Photonic”, Université Jean Monnet-Saint- Etienne, France, 2014.
2. D. D. Yaya, “Conception, réalisation et caractérisation d’inductances planaires à couches magnétiques”, Université Jean Monnet-Saint-Etienne, France, 2013.
3. B. Vallet, «Étude et conception d’une nouvelle alimentation à découpage à transfert d’énergie mixte basée sur un composant passif LCT intégré” Université Joseph Fourier, 2008.
4. A. Besri, “Modélisation analytique et outils pour l’optimisation des transformateurs de puissance haute fréquence planars”, Université de Grenoble, 2011.
5. T. H. Trinh, “Réseaux de micro convertisseurs, les premiers pas vers le circuit de puissance programmable”, Energie électrique, Université de Grenoble, 2013.
6. R. Melati, A. Hamid, F. Baghdad, F. Taibi, “Simulation d’une micro bobine”, 4ème Conférence Internationale sur l’Electrotechnique, Oran, Algeria, 2009.
7. S. Verma, J. M. Cruz, “On-chip Inductors and Transformers”, Bibliometrics, 1999.
8. F. K. Wong, B. Eng, M. Phil, “High Frequency Transformer for Switching Mode Power Supplies”, School of Microelectronic Engineering, Faculty of Engineering and Information Technology, Griffith University, Brisbane, Australia, 2004.
9. V. Boyer, N. Godefroy, “Alimentation à découpage Flyback”, M1-IUP GEII, Université Joseph Fourier IEEE.
10. M. Derkaoui, A. Hamid,T. Lebey, R. Melati, “Design and Modeling of an Integrated Micro-Transformer in a Flyback Converter”, TELKOMNIKA, vol. 11, no. 4, pp. 669-682 , 2013.
11. D. M. Pozar “Microwave Engineering”, 2nd Edition, Johnwiley and Sons Inc., 1998, pp.19-20, pp. 182-250.
12. S. Mohan, C.P. Yue, M. Del Mar Hershenson, S. Wong, T.H. Lee, “Modeling and characterization of on-chip transformers”, International Electron Devices Meeting 1998, 1998, pp. 531-534.
13. S. S. Mohan, “The design modeling and optimization of on-chip inductor and transformer circuits”, 1999.
14. C Alonso, “Contribution à l’optimisation, la gestion et le traitement de l’énergie”, Université Paul Sabatier Toulouse III, 2003.
15. X. Margueron “Elaboration sans prototypage du circuit équivalent des transformateurs de type planar”, Université Joseph Fourier, 2006.
16. R. Thüringer “Characterization of Integrated Lumped Inductors and Transformers”, Wien, 2002.
17. A. Weisshaar. “Analysis and Modeling of Monolithic On- Chip Transformers on Silicon”, Oregon State University, 2005.

There are 17 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Articles
Authors	Abdeldjebbar Abdelkader Hamid Azzedine This is me
Publication Date	August 3, 2018
Published in Issue	Year 2018 Volume: 18 Issue: 2

Cite

APA	Abdelkader, A., & Azzedine, H. (2018). Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters. Electrica, 18(2), 325-332.
AMA	Abdelkader A, Azzedine H. Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters. Electrica. August 2018;18(2):325-332.
Chicago	Abdelkader, Abdeldjebbar, and Hamid Azzedine. “Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-Back Type Converters”. Electrica 18, no. 2 (August 2018): 325-32.
EndNote	Abdelkader A, Azzedine H (August 1, 2018) Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters. Electrica 18 2 325–332.
IEEE	A. Abdelkader and H. Azzedine, “Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters”, Electrica, vol. 18, no. 2, pp. 325–332, 2018.
ISNAD	Abdelkader, Abdeldjebbar - Azzedine, Hamid. “Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-Back Type Converters”. Electrica 18/2 (August 2018), 325-332.
JAMA	Abdelkader A, Azzedine H. Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters. Electrica. 2018;18:325–332.
MLA	Abdelkader, Abdeldjebbar and Hamid Azzedine. “Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-Back Type Converters”. Electrica, vol. 18, no. 2, 2018, pp. 325-32.
Vancouver	Abdelkader A, Azzedine H. Design of Micro-Transformer in Monolithic Technology for High Frequencies Fly-back Type Converters. Electrica. 2018;18(2):325-32.

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