121B_1_EE121B_Slide01 - Intro to Dev Design and Modeling

121B_1_EE121B_Slide01 - Intro to Dev Design and Modeling -...

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Slide 1-1 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui EE 121B Principles of Semiconductor Device Design Introduction to Device Design and Modeling Professor Chi On Chui Electrical Engineering Department University of California, Los Angeles Email: chui@ee.ucla.edu Slide 1-2 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui Teaching Team Professor : Chi On Chui, 7440-D Boelter, 310-267-4786 (E-mail) : chui@ee.ucla.edu (Webpage) : http://www.ee.ucla.edu/~chui/ (Office Hour) : 4:00-5:00pm on Tuesday and Thursday, or by appointment T.A. : Quan Chau (E-mail) : quanchau@ee.ucla.edu (Office Hour) : TBD (Venue) : TBD Admin. Asst. : Rose La Mountain, 6731 Boelter, 310-825-2214 (E-mail) : rose@ea.ucla.edu
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Slide 1-3 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui General Information Lecture : 2:00-3:50pm on Tuesday and Thursday Classrooms : 5249 Boelter Course Website : https://www.eeweb.ee.ucla.edu/classinfo.php?/ee121B/1/winter/8 Credits : 4 Prerequisites : EE 2 (Physics for Electrical Engineers) or eq. Grading : Homework (about 6 sets in total) 18% Midterm (materials covered through the 5th week) 30% Final (cumulative) 50% Course Evaluation 2% Homework : Homework is due at the beginning of class. Late homework will incur point deduction. Slide 1-4 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui General Information Text - Lecture notes will be available for downloading prior to the lectures - C. R. Viswanathan, Basic Semiconductor Devices (course reader) References 1. B. G. Streetman and S. K. Banerjee, Solid State Electronic Devices 6th Ed. , Pearson Prentice Hall, 2006. 2. S. Dimitrijev, Principles of Semiconductor Devices , Oxford University Press, 2006. 3. D. A. Neamen, Semiconductor Physics and Devices , McGraw Hill, 2003. Course Objectives Introduction to principles of operation of bipolar and MOS transistors, equivalent circuits, high-frequency behavior, and voltage limitations Introduction to the fundamentals of semiconductor devices and their applications in circuits Familiarization of transistor modeling
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Slide 1-5 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui Course Syllabus (tentative) Introduction to Device Design and Modeling Review of PN Junctions Fundamentals of Bipolar Junction Transistor (BJT) Operation BJT DC, RF and Transient Behaviors BJT Models BJT Limitations and Non-Idealities Introduction to Heterojunction Bipolar Transistor (HBT) Fundamentals of MOS Capacitors Operation MOS Capacitance-Voltage Characteristics Applications of MOS Capacitors Fundamentals of MOS Field-Effect Transistor (FET) Operation MOSFET Current-Voltage Characteristics MOSFET Models MOSFET Scaling, Non-Idealities, and Advanced Structures Comparison of BJT and MOSFET Slide 1-6 © 2006 Marko Sokolich All Rights Reserved EE 121B – Chi On Chui Introduction to Device Design and Modeling What do we want an electronic device to do?
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121B_1_EE121B_Slide01 - Intro to Dev Design and Modeling -...

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