[paper] Compact electro-thermal modeling of a SiC MOSFET power module under short-circuit conditions

Proceedings of 43rd Annual Conference of the IEEE Industrial Electronics Society

IECON 2017

Lorenzo Ceccarelli, Paula Diaz Reigosa, Amir Sajjad Bahman, Francesco Iannuzzo,

Frede Blaabjerg

Center of Reliable Power Electronics, Department of Energy Technology Aalborg University,

Pontoppidanstræde 101

9220 Aalborg, Denmark 

ABSTRACT: A novel physics-based, electro-thermal model which is capable of estimating accurately the short-circuit behavior and thermal instabilities of silicon carbide MOSFET multi-chip power modules is proposed in this paper. The model has been implemented in PSpice and describes the internal structure of the module, including stray elements in the multi-chip layout, self-heating effect, drain leakage current and threshold voltage mismatch. A lumped-parameter thermal network is extracted in order to estimate the internal temperature of the chips. The case study is a half-bridge power module from CREE with 1.2 kV breakdown voltage and about 300 A rated current. The short-circuit behavior of the module is investigated experimentally through a non-destructive test setup and the model is validated. The estimation of overcurrent and temperature distribution among the chips can provide useful information for the reliability assessment and fault-mode analysis of a new-generation SiC high-power modules [read more...]

Fig.: SiC MOSFET model structure. 

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Compact #Modeling of Cross-Sectional Scaling in Gate-All-Around FETs: 3-D to 1-D Transition - IEEE Journals &... https://t.co/xp2Ff5Tlcp

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Large-Signal Static Compact Circuit #Model of SiGe Heterojunction Bipolar Phototransistors: Effect of the... https://t.co/RBNC96OpbO

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Extraction of Process Variation Parameters in FinFET Technology Based on Compact #Modeling and Characterization https://t.co/1RTYdSlig5

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#paper : On the Formulation of Self-heating Models for Circuit Simulation Lining Zhang, Member, IEEE, Debin... https://t.co/xKqgbSKTJs

#paper : On the Formulation of Self-heating Models for Circuit Simulation
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#paper : On the Formulation of Self-heating Models for Circuit Simulation Lining Zhang, Member, IEEE, Debin Song, Ying Xiao, Xinnan Lin, Mansun Chan, Fellow, IEEE https://t.co/yNcMnQarbw

#paper : On the Formulation of Self-heating Models for Circuit Simulation
Lining Zhang, Member, IEEE, Debin Song, Ying Xiao, Xinnan Lin, Mansun Chan, Fellow, IEEE https://t.co/yNcMnQarbw

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[Short Course] RFSOI: from basics to practical use of wireless technology

RFSOI: from basics to practical use of wireless technology

18th of March, Granada, Spain

  
Incize organizes a one-day short course at EuroSOI-ULIS about Silicon-on-Insulator (SOI) technology for RF applications. The tutorial is given by globally recognized experts in the field. It aims to provide its participants with the knowledge about SOI materials, devices, circuits and performance.

  
The Silicon-on-Insulator (SOI) technology is gaining more grounds in the domains of RF applications. Nearly 100% of RF antenna switches in wireless system Front-End Modules (FEM) are based on SOI. A FEM entirely built on SOI can be implemented in the observable future as both academia and industry are working in this direction.

  
This tutorial will be of interest for engineers and graduate students willing to prepare themselves for the future RF applications.

Program:Sunday, March 18

08:00 – 08:50	RF SOI, fabrication, materials and eco-system (Abstract)	Ionut Radu Director of Advanced R&D Soitec, France
08:50 – 09:40	Fundamentals of RF SOI technology(Abstract)	Jean-Pierre Raskin Professor UCL, Belgium
09:40 – 10:10	Break
10:10 – 11:00	22nm FDSOI Technology optimized  for RF/mmWave Applications (Abstract)	David L. Harame RF CTO Development and Enablement GlobalFoundries, Germany
11:00 – 11:50	RF SOI technology and components for 5G connectivity	Christine Raynaud Program Manager (Business Development – Technology to Design) CEA-Leti, France
11:50 – 13:30	Lunch
13:30 – 14:20	Analog and RF design on SOI (Abstract)	Barend van Liempd Senior Researcher imec, Belgium
14:20 – 15:10	Techniques and tricks for RF measurements on SOI	Andrej Rumiantsev Director RF Technologies MPI Corporation, Germany
15:10 – 15:40	Break
15:40 – 16:30	FOSS TCAD/EDA tools for advanced  SOI-device modeling (Abstract)	Wladek Grabinski R&D CM Manager MOS-AK, Switzerland
16:30 – 17:20	RF design flow for SOI	Ian Dennison Design Systems Senior Group Director Cadence, UK

To register, please use the EuroSOI-ULIS registration website

More information about the EuroSOI-ULIS conference and the technical Program

For any inquiries please email us at info@incize.com

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[paper] TFET Devices Re-Evaluation Résumé

Capturing Performance Limiting Effects in Tunnel-FETs
Michael Graef^1,2, Fabian Hosenfeld^1,2, Fabian Horst^1,2, Atieh Farokhnejad^1,2
Benjamín Iñíguez² and Alexander Kloes^1
1Competence Centre for Nanotechnology and Photonics, THM, Giessen, Germany
²DEEEA, Universitat Rovira i Virgili, Tarragona, Spain
ISTE OpenScience DOI: 10.21494/ISTE.OP.2018.0220

Abstract: In this paper a two-dimensional analytical Tunnel-FET model is revised. It is used to evaluate performance enhancing measures for the TFET regarding device geometry and physical effects. The usage of hetero-junctions is discussed and a way to suppress the ambipolar behavior of the TFET is shown. In focus of this work are the emerging variability issues with this new type of device. Random-dopant-fluctuations (rdf) have a major influence on the device performance. This effect is analyzed and compared with rdf effects in a MOSFET device. The drawn conclusions lead to a re-evaluation of performance limiting aspects of fabricated TFET devices [read more: 10.21494/ISTE.OP.2018.0220]

 FIG: a) Schematic geometry of an n-type DG Tunnel-FET, showing its structural parameters and doping profiles. b) Schematic band structure of a n-Tunnel-FET showing the different operating regimes and their dominating currents. 

[paper submission] MIXDES 2018

This year the 25th International Conference "Mixed Design of Integrated Circuits and Systems", MIXDES 2018 will take place on June 21-23, 2018 in Gdynia, Poland

Submit a paper <https://www.mixdes.org/Mixdes3/>

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[paper] Low Power Low Jitter 0.18 CMOS Ring VCO Design with Strategy Based on EKV3.0 Model

Amine AYED and Hamadi GHARIANI

LETI Laboratory-ENIS

Sfax, Tunisia

IJACSA Vol. 8, No. 12, 2017

Abstract—In this paper, the design of micro-power CMOS ring VCO with minimum jitter intended for a concept of frequency synthesizer in biotelemetry systems is studied. A design procedure implemented in MATLAB is described for a circuit realization with TSMC 0.18μm CMOS technology. This conventional design methodology based on EKV3.0 model is clearly suited to the challenges of analog circuits design with reduced channel width. Measures realized with ADS confirmed methodology capability to circuit sizing respecting the specifications of application. The designed ring VCO operates at a central frequency of 433MHz in ISM band with an amplitude of oscillation equal to 500 mV. The integration area was intrinsic (without buffers and without external capacitances). The simulated phase noise is about -108 dBc/Hz at 1MHz, the value of rms jitter is 44.8 ps and the power consumption of the designed VCO is 6.37 mW @ 433 MHz [read more...]

Fig.: Eye diagram for a VCO output @ 433MHz

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BSIM3v3 to EKV2.6 Model Parameter Extraction

BSIM3v3 to EKV2.6 Model Parameter Extraction and Optimisation

using LM Algorithm on 0.18um Technology node

Kirmender Singh and Piyush Jain

Int. Journal of Electronics and Telecommunications 2018 Vol.64 No.1 pp.5-11

Abstract: The industry standard BSIM3v3 and BSIM4.0 have been replaced by BSIM6.0 compact MOSFET model for deep submicron technology node. The BSIM6.0 is next generation, defacto industry standard model for bulk MOSFET. This model is charge based which is continuous from weak to strong inversion of operation. The core of analytical and physical BSIM6 model[3] is charge, with drain current equation expressed in form of source (qs) and drain charge (qd). This model has all its governing equations continuous and can be used to develop design methodology using IC based approach. But its method of computing qs and qd is complicated which is different from Vittoz traditional charge calculation method. The continuous interpolation equation of drain current as adopted by EKV2.6 although is empirical but its compact expression is preferred by analog designer to get intuitive design guidance. BSIM6 is a combined effort by BSIM and EKV modeling groups based on charge based continuous equations. Although EKV2.6 model is not valid for deep submicron process as it only includes submicron short channel effects like velocity saturation (VS), vertical field mobility reduction (VFMR), Drain induced barrier lowering (DIBL), channel length modulation (CLM) etc. But it still offers some benefits to have first cut design methodology because of its much simplified analytical equations. The inversion coefficient (IC) has found extensive acceptance in designer community as it offers enhanced design elegance in EKV then more complicated BSIM model. This paper discuses first step in analog design process by extracted core EKV2.6 intrinsic model parameters from industry standard BSIM3v3 model on 0.18µ technology node. The 0.18µ technology is chosen as it is still more common technology node in analog circuit design. The model parameters are extracted for different bins and optimisation is done using nonlinear optimisation LM algorithm. The optimised EKV2.6 parameters are validated with currentvoltage(I-V), intrinsic voltage gain (Avi) and Early voltage circuit parameter (VA) with BSIM3v3 model [read more...]

Flow-chart of BSIM to EKV conversion steps
(source:
D. Stefanovic and M. Kayal “Structured Analog CMOS Design" Springer Publications, 2008)

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Assessing the impact of temperature and voltage variations in near-threshold circuits using an analytical #model https://t.co/t0nkAEKBcw https://t.co/Av6FzcFvip

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F. Rasheed, M. S. Golanbari, G. Cadilha Marques, M. B. Tahoori and J. Aghassi-Hagmann, "A Smooth EKV-Based DC #Model for Accurate Simulation of Printed Transistors and Their Process Variations," in IEEE TED, vol. 65, no. 2, pp. 667-673, Feb. 2018.https://t.co/vQ0xogjSx4

F. Rasheed, M. S. Golanbari, G. Cadilha Marques, M. B. Tahoori and J. Aghassi-Hagmann, "A Smooth EKV-Based DC #Model for Accurate Simulation of Printed Transistors and Their Process Variations," in IEEE TED, vol. 65, no. 2, pp. 667-673, Feb. 2018.https://t.co/vQ0xogjSx4

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