Business Info:

 

POB 653
Electrical engineering department
Ben-Gurion University of the Negev
Beer-Sheva 84105
Israel

Phone:            +972(0) 6461530

e-mail:            simonl@ee.bgu.ac.il

web-page: http://www.ee.bgu.ac.il/~simonl

Simon Lineykin

Presentations and Notes:

Objective

Advanced research in fields of interrelation between mechanical and electrical engineering:

 

§ Analog electronic design

§ System design using computer aided design software

§ Modeling and emulation of the physical processes

§ Precision motion control and positioning

§ Power system analysis and design

§ RF and Terahertz system design

§ THz vision systems

§ VLSI

§ MEMS

§ Micro-robots

§ Active cooling systems using Peltier effect

§ Thermoelectric power generation

§ Control systems

§ Ultra-low noise systems and sensors

§ Energy harvesting

§ etc.

Experience

2009 – present           Department  of Electrical and Computer Engineering,
Ben-Gurion University of the Negev

Teaching Laboratories Engineer

§        Analog electronic devises, Precision measurements, Ultra-low noise electronics, etc.

 

2009 – 2010                Pixel-Scan LTD

System development engineer

§         Electro-optical systems, Scanning Microscopy, CMOS-image sensors

 

1997 – present           EE Dept. of Ben-Gurion University of the Negev

Teaching assistant, BGU

§         Analog Electronic Circuits

§         Electronic Circuits Laboratory

§         Advanced Electronic Circuits Laboratory

§         Instrumentation, Devices & Circuits Laboratory

§         Software Tools (PSPICE, Mathematica)

§         Introduction to Electrical Engineering 2

§         Control Systems

 

2008 – 2009                 The VLSI systems Center, Ben-Gurion University of the Negev

Researching engineer

§         Electro-optical systems, Scanning Microscopy,

§         THz sensors,

§         THz imaging,

§         In-vivo imaging,

§         Design and modeling the thermal tactile displays

 

2006 - 2008                     The atom chip lab at Ben Gurion University

§         Post-doctoral research on ultra low noise power supplies

 

2000 – 2001                Green Power Technologies Ltd. Rehovot, Israel

Designer Engineer

§         Computer-aided design of analog and digital electronic circuits and systems

§         Specialization: Power Factor Correction systems based on PWM-control

 

1995-1996                   Ben-Gurion University of the Negev, Israel

Instructor of workshop of mechanical engineering

§         Introduction to the machining tools process and instruments

 

1989-1991                   Sverdlov” machine-tool plant
(St. Petersburg, Russia)

Technician

§         Responsibilities: assemblage of precisions machines (CNC);

 

1984-1986:                  “LOMO” compound of optical appliances production.
(St. Petersburg, Russia)

Metal-worker

§         Qualification – third category

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Education

2001 - 2008

Ben-Gurion University of the Negev, Beer-Sheva, Israel

§         Post-doctoral research in the atom chip lab at Ben Gurion University.

§         Advisor 1: Dr. Ron Folman

§         Advisor 2: Dr. Eugene Paperno

Ben-Gurion University of the Negev, Beer-Sheva, Israel

§         Ph.D. - graduate student, electrical engineering,
Department of Electrical and Computer Engineering
(the dissertation submitted in March 2006).

§         Advisor: Professor Sam Ben-Yaakov.

§         The subject of dissertation: " Equivalent circuit modeling and application of electro-thermal and electro-mechanical power conversion systems"

§         Specialization:
Active cooling systems, Piezoelectric Devices, Peltier chillers, direct energy conversion systems, advanced electronic circuits, sensors and measurements, analysis of the systems with carrier frequencies, PLL.

 

1987- 2000

Ben-Gurion University of the Negev, Beer-Sheva, Israel.
Department of Electrical and Computer Engineering

Ms. C. - graduate student

Advisor: Professor Sam Ben-Yaakov.

§         Subject of the Research: “Piezoelectric Transformers in Power Electronics

§         Ms. C. degree with Excellence

§         Specialization: piezoelectric stepper motors, ultrasonic motors, micro motors, piezoelectric transformers, digital and analog circuits.

 

1993 - 1996

Ben-Gurion University of the Negev, Beer-Sheva, Israel.
Department of Mechanical Engineering

B. Sc. – undergraduate student

Advisor: Professor Vladimir Portman.

§         Final project on the subject of:  “problems of precision and measuring, 3D spatial dimensional chains modeling for CAD/CAM applications.”

§         Specialization: Machine elements, control systems, computer-aided tolerance optimization, 3D metrology, spatial dimensional chains.

 

1986 - 1991

Saint-Petersburg State Engineering Institute, Department of Technology,
St. Petersburg, Russia.

B.Sc. Student.

§         Specialization: computer-aided manufacturing, industrial automation, and workflow automation

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Interests

The main interest is to provide new researches in the interdisciplinary fields (physics, engineering computing, and natural science).

others: - Active cooling design for electronic equipment, design of the systems based on Peltier modules, design of the systems with piezoelectric elements, low-noise analog electrical circuits design, etc.

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Recent Magazine Publications

[1]        S. Ben-Yaakov and S. Lineykin, “Maximum power tracking of piezoelectric transformer HV converters under load variations,” IEEE Transactions on Power Electronics, vol. 21, no. 1, pp.73 - 78, Nov 2004.

[2]        S. Lineykin and S. Ben-Yaakov, “A unified spice compatible model for large and small signal envelope simulation of linear circuits excited by modulated signals,” IEEE Transactions on Industrial Applications, v.53, Issue 3, pp.745-751.

[3]        S. Lineykin and S. Ben-Yaakov, “Analysis of thermoelectric coolers by a SPICE-compatible equivalent circuit model,” Power Electronics Letters, vol. 3, no. 2, pp. 63 - 66, 2005.

[4]        S. Lineykin and S. Ben-Yaakov, “Modeling and analysis of thermoelectric modules,” IEEE Transactions on Industrial Applications,  v.43, no, 2, March/April 2007.

[5]        S. Lineykin and S. Ben-Yaakov, “Feedback isolation by piezoelectric transformers: comparison of amplitude to frequency modulation,” HAIT Journal of Science and Engineering, B, v2, Issues 5-6, pp 830 - 847, 2005, available online: http://www.hait.ac.il/jse/B/vol0236B/p830.html

[6]        S. Lineykin and S. Ben-Yaakov, "User-friendly and intuitive graphical approach to the design of thermoelectric cooling systems," International Journal of Refrigeration, accepted for publication, 2006.

[7]        S. Ben-Yaakov, M.M. Peretz, S. Lineykin, “Stability of cold cathode fluorescent lamps driven by piezoelectric transformers,” IEEE Transactions on Industrial Applications, submitted for possible publication, 2006.

Recent Conference Publications

[8]        S. Lineykin and S. Ben-Yaakov, “Feedback isolation by piezoelectric transformers: a feasibility study,” Power Conversion and Intelligent Motion, PCIM-2000, 175-181, Nuremberg, Germany, 2000, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf74.pdf

[9]        S. Lineykin and S. Ben-Yaakov, “SPICE compatible equivalent circuit of the energy conversion processes in thermoelectric modules,” IEEEI’04, 2004, Tel-Aviv, Israel, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf102.pdf

[10]        S. Lineykin and S. Ben-Yaakov, “Feedback isolation by piezoelectric transformers: comparison of amplitude to frequency modulation,” Power Electronics Specialists Conference PESC’04, pp. 1834-1840, June 2004, Aachen, Germany, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf96.pdf

[11]        S. Ben-Yaakov and S. Lineykin, “Frequency tracking to maximum power of piezoelectric transformer HV converters under load variations,” IEEE Power Electronics Specialists Conference, PESC-2002, pp. 657-662, Cairns, Australia, 2002, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf86.pdf

[12]        S. Lineykin and S. Ben-Yaakov, “A unified SPICE compatible model for large and small signal envelope simulation of linear circuits excited by modulated signals,” IEEE Power Electronics Specialists Conference, PESC-2003, 1205-1209, Acapulco, Mexico, 2003, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf90.pdf

[13]        S. Lineykin and S. Ben-Yaakov, “Modeling and analysis of thermoelectric modules,” Applied Power Electronics Conference APEC’05, pp.2019 - 2023, Austin, Texas, USA, available online: http://www.ee.bgu.ac.il/~pel/pdf-files/conf105.pdf

[14]        S. Lineykin and S. Ben-Yaakov, "PSPICE-compatible equivalent circuit of thermoelectric coolers," IEEE Power Electronics Specialists Conference, PESC'05, 608-612, Recife, Brazil, 2005.

[15]        S. Ben-Yaakov, M.M. Peretz, S. Lineykin, “Stability of cold cathode fluorescent lamps driven by piezoelectric transformers,” Applied Power Electronics Conference APEC’05, pp.1517 - 1522, Austin, Texas, USA.

[16]        S. Lineykin and S. Ben-Yaakov, "A simple and intuitive graphical approach to the design of thermoelectric cooling systems," IEEE PESC'06, pp. 2043 - 2047, Jeju, Korea.

[17]        S. Lineykin and S. Ben-Yaakov, "Envelope impedance: theory and applications," IEEE PESC'06, pp. 2923 - 2926, Jeju, Korea, 2006 .

[18]        Natan Kopeika, Amir Abramovich, Orly Yadid-Pecht, Yitzhak Yitzhaky, Alex Belenky, Simon Lineykin and Daniel Rozban, “Relatively Inexpensive Terahertz Imaging,” IEEEI 2008, IEEE 25-th convention of electrical and electronics engineers in Israel, December 3-5, 2008, Eilat, Israel.

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Publications referring to works where Simon Lineykin is listed as an author

 

[19]        Paisarn Naphon and Songkran Wiriyasarta, "Liquid cooling in the mini-rectangular fin heat sink with and without thermoelectric for CPU," International Communications in Heat and Mass Transfer, v36, Issue 2, pp. 166-171, February 2009.

[20]        L.Mateu, C.Codrea, N. Lucas, M. Pollak and P.Spies, "Energy Harvesting for Wireless Communication Systems Using Thermogenerators," available online: http://www.iis.fraunhofer.de/fhg/Images/mateu_et_al_fv_dcis2006_tcm97-73301.pdf

[21]        Myounghwan Ryu, Sungjin Choi, Sangmin Lee and Bo H. Cho, "A New Piezoelectric Transformer Driving Topology for Universal Input AC/DC Adapter using a Constant Frequency PWM Control," APEC 06, 0-7803-9547-6/06/$20.00 ©2006 IEEE.

[22]        J. A. Oliver, O. Garcia, P. Alou and J. A. Cobos, "Analysis of the Internal Stability of Two Different Control Implementations of the Phase-Shifted Full- Bridge Resonant Converter," PESC'07, 1-4244-0655-2/07/$20.00©2007 IEEE.

[23]        D. Mitrani, J. Salazar, A. Turo, M. J. Garcia, and J. A. Chavez, "Lumped and Distributed Parameter SPICE Models of TE Devices Considering Temperature Dependent Material Properties," THERMINIC 2007, Budapest : Hungary (2007), ISBN: 978-2-35500-002-7.

[24]        Sungjin Choi, Myounghwan Ryu, Sangmin Lee and Bo H. Cho, "Adaptive Frequency Control Strategy for Piezoelectric Transformer in AC/DC Adapter Applications using Phase-Detector," APEC 06, pp.1296-1299.0-7803-9547-6/06/$20.00 ©2006 IEEE.

[25]        Gabriel Olander, "Compact Stand-Alone-Power-Source (SAPS) for Wireless Applications," Journal of Undergraduate Research, v 7, Issue 2, January/February 2006.

[26]        S. Haidar, I. Isaac and T. Singleton, "Thermoelectric Cooling Using Peltier Cells in Cascade," Undergraduate Laboratories, Department of Physics, University of Alberta, Edmonton,AB, T6G 2G7.

[27]        Alfredo Vazquez Carazo, "50 Years Of Piezoelectric Transformers. Trends In The Technology," Mat. Res. Soc. Symp. Proc. v. 785 © 2004 Materials Research Society.

[28]        Min Chen, Student Member, IEEE, Lasse A. Rosendahl, Thomas J. Condra, and John K. Pedersen, Senior Member, IEEE, "Numerical modeling of thermoelectric generators with varying material properties in a circuit simulator," IEEE transactions on energy conversion, v. 00, no. 00, 2008.

[29]        Shun-Chung wang, Juing-Huei Su, Yih-Chien Chen, "A Web-Based E-Learning Platform for Power Electronics Courses,” 37th ASEE/IEEE Frontiers in Education Conference, October 10 – 13, 2007, Milwaukee, WI.

[30]        E.L. Horsley, M.P. Foster, D.A. Stone, "State-of-the-art Piezoelectric Transformer Technology," EPE 2007, Aalborg, ISBN : 9789075815108.

[31]        O.P. Thakur, " Piezoelectric Transformer - A Review," Invertis Journal of Science & Technology, v. 2, no. 1; pp. 53-64, 2008

[32]        H. Sira-Ramirez, M. Spinetti-Rivera, and E. Fossas-Colet, "An algebraic parameter estimation approach to the adaptive observer-controller based regulation of the boost converter," ISIE 2007, IEEE International Symposium on Industrial Electronics, pp. 3367-3372, 4-7 June 2007, 1-4244-0755-9/07/$20.00 '2007 IEEE.

[33]        Kan Zeng Ming-Xia He, "A simple boundary process technique for empirical mode decomposition," Geoscience and Remote Sensing Symposium, 2004. IGARSS '04. Proceedings. 2004 IEEE International.

[34]        Manh Cuong Do, "Piezoelectric Transformer Integration Possibility in High Power Density Applications," TUDpress:2008, Zugl.: Dresden, Techn. Univ., Diss., 2008, ISBN 978-3-940046-85-7.

[35]        Kevin D. Smith, "An Investigation into the Viability of Heat Sources for Thermoelectric Power Generation Systems," A Thesis Submitted in Partial Fulfillment of the Requirements for the Degree of Master of Science in Mechanical Engineering, Department of Mechanical Engineering Rochester Institute of Technology, Rochester, NY 14623 February 2009.

[36]        Esther Hilinger Pelegrin, "Thermoelectric converter for using the heat dissipated by the human body," MsC thesis, Escola politecnica Superior de Castelldefels.

[37]        YU Li-yang, WANG De-miao, DONG Shu-rong, "Novel Progress in the Research of Circuit Used in the Piezoelectric Transformer," Electronic components & materials, v.24 n.6, pp. 51-53, Jun. 2005.

[38]        Valentin-Ioan Maranescu, "Contributii la imbunatatirea unor performante ale stabilizatoarelor de tensiune cu regulatoare integrate liniare interconectate," Teza de doctorat 2006, Universitatea ”politehnica” din Timisoara, Facultatea de Electronica si Telecomunicatii.

[39]        Songkran Wiriyasart. “Liquid Cooling in the Mini Pin Fin Heat Sink with and without Thermoelectric for CPU of PC,” Master thesis, M.Eng. (Mechanical Engineering). Bangkok: Graduate School, Srinakharinwirot University. 2008.

[40]        Mateu Loreto, Codrea Cosim, Lucas Nestor, Pollak Markus, and Spies Peter, "Human Body Energy Harvesting Thermogenerator for Sensing Applications," SensorComm 2007, International Conference on Sensor Technologies and Applications, pp.366 – 372, Oct. 2007.

[41]        M. Chen, L. A. Rosendahl, T. J. Condra, and J. K. Pedersen, "Numerical modeling of thermoelectric generators with varing material properties in a circuit simulator," IEEE transactions on energy conversion, v. 24, Issue 1, pp. 112 – 124, March 2009.

[42]        S.Ben-Yaakov and M.M.Peretz "Cold Cathode Fluorescent Lamps Driven by Piezoelectric Transformers: Stability Conditions and Thermal Effect," IEEE Transactions onPower Electronics, v. 22, Issue 3, Part Special Section on Lighting Applications, pp.761 – 768, May 2007.

[43]        G.Spiazzi, and S.Buso "Small-Signal Analysis of Cold Cathode Fluorescent Lamp Ballasts," IEEE Transactions on Power Electronics, v.22, Issue 3, Part Special Section on Lighting Applications, pp.753 – 760, May 2007.

[44]        Hun Sik Han, Seo Young Kim, Tae Ho Ji, Young-Jun Jee, Daewoong Lee, Kil Sang Jang, and Dong Hoon Oh, "Heat sink design for a thermoelectric cooling system," ITHERM 2008. 11th Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems, pp. 1222 - 1230, 2008. 28-31 May 2008

[45]        M. Chen, L.A. Rosendahl, I. Bach, T. Condra, and J. K. Pedersen, "Transient behavior study of thermoelectric generators through an electro-thermal model using SPICE," ICT '06. 25th International Conference on Thermoelectrics, pp.214 – 219, 6-10 Aug. 2006.

[46]        M.M. Peretz and S. Ben-Yaakov, "Thermal effects on the stability of piezoelectric transformers based ballasts for cold cathode fluorescent lamps," PESC '06. 37th IEEE Power Electronics Specialists Conference, pp. 1-7, June 2006.

[47]        Chang-Hua Lin, Ying Lu, Huang-Jen Chiu, Chung-Lun Ou, "Eliminating the temperature effect of piezoelectric transformer in backlight electronic ballast by applying the digital phase-locked-loop technique," IEEE Transactions on Industrial Electronics, v.54, Issue 2, pp. 1024 – 1031, April 2007.

[48]        Shun-Chung Wang, Yi-Hwa Liu, "Software-reconfigurable e-learning platform for power electronics courses," IEEE Transactions on Industrial Electronics, v. 55, Issue 6, pp. 2416 - 2424 June 2008.

[49]        Jiashi Yang, “Piezoelectric transformer structural modeling - a review,” IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, v. 54, Issue 6, pp. 1154 - 1170 June 2007.

[50]        Ray-Lee Lin and Hsu-Ming Shih, “Piezoelectric transformer based current-source charge-pump power-factor-correction electronic ballast,” IEEE Transactions on Power Electronics, v. 23, Issue 3, pp. 1391 – 1400, May 2008.

[51]        Kuo-Tsai Chang and Hsuang-Chang Chiang, “Investigation of Electrical Transient Behavior for Ultrasonic Transducer in on/off Cycles,” IEEE Transactions on Industrial Electronics, v 55, Issue 3, pp. 1394 - 1403 March 2008.

[52]        J. Diaz, F. Nuno, M.J.Prieto, J.A.Martin-Ramos, and P. J. Villegas Saiz, “Closing a Second Feedback Loop in a DC–DC Converter Based on a Piezoelectric Transformer,” IEEE Transactions on Power Electronics, v 22, Issue 6, pp.2195 – 2201, Nov. 2007.

[53]        G. Ivensky, M. Shvartsas, S. Ben-Yaakov, “Analysis and modeling of a voltage doubler rectifier fed by a piezoelectric transformer,” IEEE Transactions on Power Electronics, v. 19, Issue 2, pp. 542 – 549, March 2004.

[54]        Yu-Kang Lo and Kai-Jun Pai, „Feedback Design of a Piezoelectric Transformer-Based Half-Bridge Resonant CCFL Inverter,” IEEE Transactions on Industrial Electronics, v. 54, Issue 5, pp. 2716 – 2723, Oct. 2007.

[55]        J.A. Martin-Ramos, J. Diaz, A.M. Pernia,  J.M. Lopera, and F. Nuno, “Dynamic and Steady-State Models for the PRC-LCC Resonant Topology with a capacitor as output filter,” IEEE Transactions on Industrial Electronics, v 54,  Issue 4, pp. 2262 - 2275 Aug. 2007.

[56]        A.JVerma, R. Makkar, and K. Chalapathi, “Thermal management issues in Laser diode packaging,” ICSE 2008, IEEE International Conference on Semiconductor Electronics, pp. 398 – 401, 25-27 Nov. 2008.

[57]        A. Mirocha and P. Dziurdzia, “Improved electrothermal model of the thermoelectric generator implemented in SPICE,” ICSES '08. International Conference on Signals and Electronic Systems, pp. 317 – 320, 14-17 Sept. 2008.

[58]        Yu-Kang Lo, Chang-Hua Lin, and Kai-Jun Pai, “Design and Analysis of a Piezoelectric Transformer-Based Half-Bridge Resonant Inverter for CCFL Backlight Modules,” IEEE International Symposium on Industrial Electronics, 2006 v. 2, pp. 892 – 896, 9-13 July 2006.

[59]        Cuong Do Manh, T. Hanisch, H. Gueldner, “High voltage igniter based on discontinuous working mode of piezoelectric transformers,” European Conference on Power Electronics and Applications, pp. P7, 2005.

[60]        J.A.Oliver, C. Fernandez, R. Prieto, J.A. Cobos, “Circuit Oriented Model of Rectifiers for Large Signal Envelope Simulation,” PESC '05. IEEE 36th Power Electronics Specialists Conference, pp. 2771 – 2776, June 2005.

[61]        J.M.Alonso, C.Ordiz, M.A.D.Costa, J.Ribas, and J.Cardesin, “High Voltage Power Supply for Ozone Generation Based on Piezoelectric Transformer,” 42nd IAS Annual Meeting. Conference Record of the 2007 IEEE Industry Applications Conference, pp. 1901 – 1908, Sept. 2007.

[62]        Lin Ray-Lee and Shih Hsu-Ming, “A Family of Piezoelectric Transformer Based Bridgeless Continuous-Conduction-Mode Charge-Pump Power-Factor-Correction Electronic Ballasts,” 42nd IAS Annual Meeting. Conference Record of the 2007 IEEE Industry Applications Conference, pp. :812 – 818, Sept. 2007.

[63]        Ryu Myounghwan, Choi Sungjin, Lee Sangmin, B.H. Cho, “A new piezoelectric transformer driving topology for universal input AC/DC adapter using a constant frequency PWM control,” APEC '06. Twenty-First Annual IEEE, Applied Power Electronics Conference and Exposition, pp. 4, 2006, March 2006.

[64]        S. Choi, ; M. Ryu, ; S. Lee, ; B.H. Cho, “Adaptive frequency control strategy for piezoelectric transformer in AC/DC adapter applications using phase detector,” APEC '06. Twenty-First Annual IEEE, Applied Power Electronics Conference and Exposition, pp. 4 March 2006.

[65]        Denis Mets, Shaul Ozeri, and Doron Shmilovitz, “An ultrasonic, electrically isolated channel, over PCB,”APEC 2007 - Twenty Second Annual IEEE, Applied Power Electronics Conference, pp. 1639 – 1643, Feb/March 2007.

[66]        O. Cifdaloz, D.G. Cartagena, A.A. Rodriguez, “Constrained H¥ Mixed-Sensitivity Optimization for Infinite-Dimensional Plants: Applications to Thermal, Structural, and Aircraft Systems,” 45th IEEE Conference on Decision and Control, pp. 1209 – 1214, 2006.

[67]        D. Mets, S. Ozeri, D. Shmilovitz, “Isolated feedback coupling by means of an acoustic channel,” PESC 2008. IEEE Power Electronics Specialists Conference, pp. 2318 – 2324, June 2008.

[68]        M. Vassilev, Y. Avenas, C. Schaeffer, A. Kerim, “Single phase cooling system powered by a thermoelectric module,” PESC 2008, IEEE Power Electronics Specialists Conference, pp. 2295 – 2300, June 2008.

[69]        Chen Lihua, Cao Dong, Huang Yi, and F.Z. Peng, “Modeling and power conditioning for thermoelectric generation,” PESC 2008, IEEE Power Electronics Specialists Conference, pp. 1098 – 1103, June 2008.

[70]        M. Chen, I. Bach, L.A. Rosendahl, T. Condra, and J.K. Pedersen, “Multi-physics simulation of thermoelectric generators through numerically modeling,” ICT 2007 26th International Conference on Thermoelectrics, pp. 300 – 305, June 2007

[71]        Lo Yu-Kang and Pai Kai-Jun, “Feedback design of a piezoelectric transformer-based half-bridge resonant CCFL inverter,” ACEMP '07. International Aegean Conference on Electrical Machines and Power Electronics, pp. 162 – 167, Sept. 2007.

[72]        Yun, S.T.; Sim, J.M.; Park, J.H.; Choi, S.J.; Cho, B.H., “Adaptive Phase Control Method for Load Variation of Resonant Converter with Piezoelectric Transformer,” PEDS '07. 7th International Conference on Power Electronics and Drive Systems, pp. 164 – 168, Nov. 2007.

[73]        E.L. Horsley, M.P. Foster, D.A. Stone, “State-of-the-art Piezoelectric Transformer technology,” European Conference on Power Electronics and Applications, pp. 1 – 10, Sept. 2007.

[74]        J. Tian, J. Petzoldt, T. Reimannt, M. Scherf, G. Deboy, M. Maerz, and G. Berger, “Envelope model for resonant converters and application in LLC converters,” European Conference on Power Electronics and Applications, pp. 1 – 7, Sept. 2007.

[75]        J. Tian, J. Petzoldt, T. Reimann, M. Scherf, and G. Berger, “Envelope Model of Frequency-Duty-Controlled LLC Converters,” PESC 2007. IEEE Power Electronics Specialists Conference, pp. 876 – 881, June 2007.

[76]        Oliver, J.A.; Garcia, O.; Alou, P.; Cobos, J.A., “Analysis of the Internal Stability of Two Different Control Implementations of the Phase-Shifted Full-Bridge Resonant Converter,” PESC 2007. IEEE Power Electronics Specialists Conference, pp. 737 – 741, June 2007.

[77]        D.Mitrani,  J Salazar, A. Turo, M.J. Garcia, and J.A. Chavez, ”Lumped and distributed parameter SPICE models of TE devices considering temperature dependent material properties,” THERMINIC 2007. 13th International Workshop on Thermal Investigation of ICs and Systems, pp. 202 – 207, Sept. 2007

[78]        Sira-Ramirez, H.; Spinetti-Rivera, M.; Fossas-Colet, E. “An algebraic parameter estimation approach to the adaptive observer-controller based regulation of the boost converter,” ISIE 2007. IEEE International Symposium on Industrial Electronics, pp. 3367 – 3372, June 2007.

[79]        J.W. Kolar, U. Drofenik, J. Biela, M.L. Heldwein, H. Ertl, T. Friedli, and S.D. Round, “PWM Converter Power Density Barriers,” PCC '07, Power Conversion Conference - Nagoya, pp. P-9 - P-29, April 2007.

[80]        D.Mets, S.Ozeri, and D.Shmilovitz, “Ultrasonic coupling of electrically isolated circuits using piezoelectric devices,” IEEE 24th Convention of Electrical and Electronics Engineers in Israel, pp. 231 – 235, Nov. 2006.

[81]        S. Zhou, X. Zhang, “PSpice Modeling of Thermal Performance in Laser Diodes Packaging,” IEEE Lasers & Electro-Optics Society, pp. 172 – 173, Oct. 2006.

[82]        T. Wey, “On the Behavioral Modeling of a Thermoelectric Cooler and Mechanical Assembly,” IEEE North-East Workshop on Circuits and Systems, pp. 277 – 280, June 2006.

[83]        Lin Chang-Hua ; Chen Ying-Chi ; Lu Ying ; Wen Fuh-Liang, ”DPLL Technique Applied to Backlight Module for Eliminating Temperature Effect in Piezoelectric Transformer,” PEDS 2005. International Conference on Power Electronics and Drives Systems, v 2, pp. 1040 – 1045, Nov. 2005.

[84]        Lin Chang-Hua and Chen Ying-Chi, “Design of class E backlight module incorporating piezoelectric transformer,” ISCAS 2005. IEEE International Symposium on Circuits and Systems, v. 4, pp. 3655 – 3659, May 2005.

[85]        Chang-Hua Lin; Ying Lu; Yu-Kang Lo; Kai-Jun Pai; Yung-Yi Wang, “Control strategy for eliminating the temperature effect of piezoelectric transformer in the backlight module,” IECON 2004. 30th Annual Conference of IEEE Industrial Electronics Society, v. 1. pp. 920 – 925, Nov. 2004.

[86]        Lin Chang-Hua ; Lu Ying ;  Pai Kai-Jun; Chen Ying-Qi, ”Achieving maximum-efficiency tracking control for backlight electronic ballast with phase-locked loop techniques,” Proceedings of the 2004 IEEE International Conference on Control Applications, v. 2, pp. 1651 – 1656, Sept. 2004.

[87]        P. Naphon and S. Wiriyasart, “Liquid cooling in the mini-rectangular fin heat sink with and without thermoelectric for CPU,” International Communications in Heat and Mass Transfer volume 36, issue 2, year 2009, pp. 166 – 171.

[88]     Robert Risberg, Modeling Multi-layered Structures for ResonantInspection,  M.Sc. Thesis,. Uppsala University, Signals & Systems, March 2004.

[88]        [89]   C. H. Lin, Y. C. Chen, J. Y. Chen, and F. L. Wen, “The elimination of the temperature effect on a piezoelectric transformer in a backlight inverter based on the phase-locked loop technique,” in Proc. IEEE Int. Conf. on Mechatronics, 2005, pp. 828–833.

[89]        [90]   C. H. Lin and J. Y. Chen, "The tracking of the optimal operating frequency in a class e backlight inverter using the PLL technique," IEICE Transactions on Electronics, vol. E88, pp. 1253-1262, 2005.

[90]        [91]   CH Lin, JH Su, CY Ho, "Design of Class E Backlight Module With Optimal Operating Frequency Tracking Mechanism," - 2nd IEEE Conference on Industrial Electronics and Applications, pp. 1933 – 1938, 2007.

[91]        [92]   Farahabadi, P.M.; Siavashi, E.M.; Hassani, Y.; Zadeh, M.K, "Novel method for tracking the resonance frequency of RLC loads using extended kalman filter," ICIEA 2009. 4th IEEE Conference on Industrial Electronics and Applications 2009, Page(s):831 – 836.

[92]        [93]   朴鍾厚(Joung-Hu Park, 박종후) · 徐甲洙(Gab-Su Seo, 서갑수) · 趙普衡(Bo-Hyung Cho, 조보형) · 李勁彪(Kyung-Pyo Yi, 이경표) , "A Resonant-type Step-up DC/DC Converters with Piezoelectric Transducers," 전력전자학회 논문지 14 5, 2009. 10, pp. 343~354

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