Nonlinear Compact Thermal Model of SiC Power Semiconductor Devices Krzysztof Górecki, Janusz Zarębski, Damian Bisewski and Jacek Dąbrowski Department of.

Slides:

Advertisements

Similar presentations

Lecture 6 Solid-State Diodes and Diode Circuits

Advertisements

C. M. Johnson, P. H. Riley and C. R. Saha Thermo-acoustic engine converts thermal energy into sound energy by transferring heat between the working media.

Feedback of Amplifier Circuits I

Paths of the Heat Flow from Semiconductor Devices to the Surrounding Krzysztof Górecki, Janusz Zarębski Department of Marine Electronics Gdynia Maritime.

Power Semiconductor Systems I

T.J. Kazmierski Circuit-level modelling of carbon nanotube field-effect transistors 1 MOS-AKMunich 14 September 2007 School of Electronics and Computer.

Modelling power LEDs in SPICE with selfheating taken into account Krzysztof Górecki Department of Marine Electronics Gdynia Maritime University, POLAND.

The nonlinear compact thermal model of power MOS transistors

A New DC Measuring Method of the Thermal Resistance of Power MOS Transistors Krzysztof Górecki and Janusz Zarębski Department of Marine Electronics Gdynia.

Chapter 7 Operational-Amplifier and its Applications

SPICE-modelling and the analysis of the self-excited push-pull dc-dc converter with selfheating taken into account Krzysztof Górecki and Janusz Zarębski.

Diodes and diode equation

Part F Practical Applications. 28. Fan-Cooled Enclosure of a PC System Physical System The physical system of interest is a fan-cooled enclosure containing.

SPICE modelling of PFC controller

PSPICE Tutorial. Introduction SPICE (Simulation Program for Integrated Circuits Emphasis) is a general purpose analog circuit simulator that is used to.

Rowan Hall 238A April 24, 2007 Electronics I for M.E. ECE Load Line Exercises James K. Beard, Ph.D.

The method of a fast electrothermal transient analysis of a buck converter Krzysztof Górecki and Janusz Zarębski Department of Marine Electronics Gdynia.

Pinched Hysteresis Loops of Two Memristor SPICE Models Akzharkyn Izbassarova and Daulet Kengesbek Department of Electrical and Electronics Engineering.

1 Chapter 5 Sensors and Detectors A detector is typically the first stage of a communication system. Noise in this stage may have significant effects on.

Chapter 20 AC Network Theorems.

POWER TRANSISTOR – MOSFET Parameter 2N6757 2N6792 VDS(max) (V)

VOLTAGE REGULATORS. Types of Voltage Regulators Zener Diode Regulators Series Transistor Regulators Low Dropout (LDO) Regulators Packaged Regulators.

Influence of MOSFET Model Form on Boost Converter Characteristics at the Steady State Krzysztof Górecki and Janusz Zarębski Department of Marine Electronics.

1 Neural plug-in motor coil thermal modeling Mo-Yuen Chow; Tipsuwan Y Industrial Electronics Society, IECON 26th Annual Conference of the IEEE, Volume:

Lecture 3: Bridge Circuits

EE415 VLSI Design The Devices: Diode [Adapted from Rabaey’s Digital Integrated Circuits, ©2002, J. Rabaey et al.]

EENG 2610: Circuits Analysis Class 3: Resistor Combinations, Wye-Delta Transformations, Dependent Sources Oluwayomi Adamo Department of Electrical Engineering.

Field-Effect Transistor

The George Washington University School of Engineering and Applied Science Department of Electrical and Computer Engineering Circuit Design Verification.

Chapter 2 Operational Amplifier Circuits

A method for thermal model generation of MEMS packages Márta Rencz 1 Vladimír Székely 2 Zsolt Kohári 2 Bernard Courtois 3 2 Technical University of Budapest,

Digital IC Family.

Thermal and Electrical Simulation of Smart Power Circuits by Network Analysis IntroductionSimulation principleCross section of lateral power transistor.

CHAPTER 16 Power Circuits: Switching and Amplifying.

Self-heating investigation of bulk and SOI transistors

Gy. Bognár 1, P. Fürjes 2, V. Székely 1, M. Rencz 3 TRANSIENT THERMAL CHARACTERISATION OF HOT PLATES &of MEMS MOEMS MicReD Ltd., Budapest, Hungary.

The Influence of the Mounting Manner of the Power LEDs on Its Thermal and Optical Parameters Krzysztof Górecki, Przemysław Ptak Gdynia Maritime University.

Achieve a New Type Frequency Divider Circuit and Application By MOS-HBT-NDR Y.K. LI, K.J. Gan, C. S. Tsai, P.H. Chang and Y. H. Chen Department of Electronic.

ECE 4991 Electrical and Electronic Circuits Chapter 8.

Parameters Identification of Embedded PTAT Temperature Sensors for CMOS Circuits MIXDES '07. 14th International Conference on Mixed Design of Integrated.

Thermal-aware Steiner Routing for 3D Stacked ICs M. Pathak and S.K. Lim Georgia Institute of Technology ICCAD 07.

Application of the Electrothermal Average Inductor Model for Analyses of Boost Converters Krzysztof Górecki, Janusz Zarębski, Kalina Detka Gdynia Maritime.

Lumped versus Distributed: A component must be considered as distributed when the physical dimensions of an element become significant with respect to.

Dept of Electrical & Electronics. Ganesh Kudva Dept. of Electrical & Electronics Engg.

The Influence of the Selected Factors on Transient Thermal Impedance of Semiconductor Devices Krzysztof Górecki, Janusz Zarębski Gdynia Maritime University.

Chapter 20 AC Network Theorems. Superposition Theorem The voltage across (or current through) an element is determined by summing the voltage (or current)

THE ELECTROTHERMAL ANALYSIS OF A SWITCHED MODE VOLTAGE REGULATOR Krzysztof Górecki and Janusz Zarębski Department of Marine Electronics Gdynia Maritime.

Delivering Success. Modeling 32 V Asymmetric LDMOS Using Aurora and Hspice Level 66 By Alhan Farhanah, Mohd Shahrul Amran, Albert Victor Kordesch Device.

Dept of Electrical & Electronics ELE 1001: Basic Electrical Technology Lecture 01 Introduction to Electrical Circuit Elements & Source Transformation.

Interval Type-2 Fuzzy T-S Modeling For A Heat Exchange Process On CE117 Process Trainer Proceedings of 2011 International Conference on Modelling, Identification.

BASIC SEMICONDUCTOR ELECTRONIC CIRCUITS Introduction of two basic electronic elements: diode and transistor LEARNING GOALS Diodes structure and four modeling.

Nano and Giga Challenges in Microelectronics Symposium and Summer School Research and Development Opportunities Cracow Sep , 2004 Afternoon 11: Nanotechnology.

EMT 112 / 4 ANALOGUE ELECTRONICS Self-Reading Power Transistor – BJT & MOSFET.

Properties of the bakelite used for standard RPC chambers as a function of the operating temperature F. Bruni – G. Hull – S.M. Mari 4 digital thermometers.

Shree Swami Atmanand Saraswati Institute Of Technology Kathiriya Krishna Kheni Vaidehi Submitted to Prof.Pratik Desai Prof.Hetal.

Self Switching Power Supply. Introduction Self Switching Power Supply  Embedded system requires a regulated power supply.

COURSE NAME: SEMICONDUCTORS Course Code: PHYS 473 Week No. 8.

Modelling LED Lamps with Thermal Phenomena Taken into Account Krzysztof Górecki and Przemysław Ptak Gdynia Maritime University Department of Marine Electronics.

BJT Circuits Chapter 5 Dr.Debashis De Associate Professor

Chapter 20 AC Network Theorems.

Małgorzata Godlewska, Krzysztof Górecki

Review for Final Exam MOSFET and BJT Basis of amplifiers

Power Semiconductor Systems I

Wireless charging FACULTY OF ENGINEERING AND INFORMATION TECHNOLOGY

Hao Zhai, Hao Yi, Zhirong Zeng, Zhenxiong Wang, Feng Wang, Fang Zhuo

Krzysztof Górecki and Kalina Detka

A HIGH FREQUENCY, HIGH EFFICIENCY, HIGH POWER FACTORISOLATED ON-BOARD

High-temperature Properties of Schottky Diodes Made of Silicon Carbide

Bipolar Junction Transistors

Active Device Channel SPICE Thermal Modeling and Parameter Extraction

Presentation transcript:

Nonlinear Compact Thermal Model of SiC Power Semiconductor Devices Krzysztof Górecki, Janusz Zarębski, Damian Bisewski and Jacek Dąbrowski Department of Marine Electronics Gdynia Maritime University, POLAND

2 Outline  Introduction  The form of the nonlinear thermal model  Estimation of the model parameters  Verification of the model accuracy  Conclusions

3 Introduction (1)  The thermal models are indispensable for calculating the device internal temperature.  There are the microscopic and the compact thermal models used for this purpose.  In the thermal analysis of electronic networks the compact thermal models are typically used.  The network representation of the compact thermal model is frequently used.  This representation consists of the current source representing the dissipated power and the Cauer or the Foster network representing the transient thermal impedance Z(t)

4  Both the networks are fully equivalent from the point of view the terminal T j, representing the device internal temperature.  The efficiency of abstraction of the heat dissipated in semiconductor devices depends on many factors, e.g. on the dissipated power.  The thermal models presented in literature are the linear models, which do not take into account the dependence of the Z(t) on the dissipated power. Introduction (2)

5 In the paper  In the paper the compact nonlinear thermal model of SiC devices is proposed.  This model was experimentally verified for SiC- MESFET and SiC-SBR

6 The form of the nonlinear thermal model Formulating of the nonlinear thermal model 1.The device transient thermal impedance in the wide range of the dissipated power should be measured. 2.The values of the elements R i,C i (Cauer network) are estimated at various values of the power. 3.The dependence Ri(p th ) and C i (p th ) are drafted. Then, on the basis of these dependences, the proper approximation function is fitted. 4.The values of the parameters existing in the dependences Ri(p th ) and C i (p th ) are estimated. 5.The proper model of the network form is formulated and implemented to SPICE.

7 The form of the nonlinear thermal model C i0, a i1, a i2, b i1, b i2, d i1, d i2, e i1, e i2, R i0, p i1, p i2, p i3, p i4 are the model parameters.

8 Estimation of the model parameters The estimation was performed for the diode SDP10S10 and MESFET CRF24010F iC i0 a i1 a i2 b i1 b i2 R i0 d i1 d i2 e i1 e i2 p i1 p i2 p i3 p i

9 Verification of the model accuracy

10 Verification of the model accuracy

11 Conclusions In the paper the compact nonlinear thermal model of SiC semiconductor devices is proposed. The accuracy of this model is verified on the example of the power MESFET transistor CRF24010F and the Schottky diode SDP10S30. A good agreement between the measurements and the calculations with the use of the new model in the wide range of changes of the device dissipated power and for various conditions of theirs cooling is achieved. The examples show a strong influence of the power dissipated in the device on the values of its thermal parameters – the thermal resistance and the transient thermal impedance. For the device operating without a heat-sink, the changes of thermal resistance corresponding to the considered changes of the power equal to even 25% are observed. The proposed nonlinear thermal model can be used in the construction of the electrothermal models of the considered power semiconductor devices, dedicated to the analyze and design electronic circuits.