2018 Fall

       

    - Undergraduate Courses -

       

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    [ Lecture note & Board ]

     

    Microelectronic Circuits 2

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

         

    2018 Spring

       

    - Undergraduate Courses -

       

    Circuit Theory 1

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

     

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    [ Lecture note & Board ]

         

    2017 Fall

       

    - Undergraduate Courses -

       

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    [ Lecture note & Board ]

     

    Microelectronic Circuits 2

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

         

    2017 Spring

       

    - Undergraduate Courses -

       

    Microelectronic Circuits 1

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

     

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    [ Lecture note & Board ]

         

    2016 Fall

       

    - Undergraduate Courses -

       

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    [ Lecture note & Board ]

     

    VLSI Engineering

    This course deals with knowledge required for the VLSI design process including higher processing speed, highly integrated, CMOS circuit technology.

     

    [ Lecture note & Board ]

         

    2016 Spring

       

    - Undergraduate Courses -

       

    Microelectronic Circuits 1

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

     

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    [ Lecture note & Board ]

         

    2015 Fall

       

    - Undergraduate Courses -

       

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    [ Lecture note & Board ]

     

    Microelectronic Circuits 2

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

         

    2015 Spring

       

    - Undergraduate Courses -

       

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    [ Lecture note & Board

     

     

     

    2014 Fall

       

    - Undergraduate Courses -

       

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    [ Lecture note & Board]

     

    Microelectronic Circuits 2

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

     

    2014 Spring

       

    - Undergraduate Courses -

       

    Microelectronic Circuits 1

    This course deals with structure and operation of BJT and FET, and basic amplifiers based on the BJT and FET devices, secondary effects, and circuit models. This course will cover the circuit simulation and analysis method with SPICE simulation tool.

    [ Lecture note & Board ]

     

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    [ Lecture note & Board ]

     

    2013 Fall

     

     

    - Undergraduate Courses -

     

     

    Circuit Theory 2

    This course deals with complex frequency and frequency response, two port and magnetically coupled circuits, Fourier transforms and their use in understanding modulation and sampling, Laplace transforms and application to circuit analysis; transfer functions and Bode plots.

    Syllabus          Lecture note & Board

     

     

     

    2013 Spring

     

     

    - Undergraduate Courses -

     

    - Graduate Course -

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    Syllabus          Lecture note & Board

     

    Information Display Engineering 3

    This course consists of three parts. Lectures on driving methods and circuits for flat panel displays, seminar on the recent research advances, and design projects. Students should understand the state-of-the-art driving methods for flat panel displays and obtain the design capability of driver circuits.

    Syllabus          Lecture note & Board

     

     

     

    2012 Fall

     

     

    - Graduate Course -

       

    Design of Digital Circuit

    This course starts with various issues which designers face in the deep submicron processes. Design issues on mixed-signal circuits for advanced processes, and guide lines for achieving a manufacturable design will be covered.

    Syllabus          Lecture note & Board

     

     

     

     

     

    2012 Spring

       

    - Undergraduate Courses -

       

    Introduction to

    Information Display Engineering

    This course starts with fundamentals of color science and human visual system which lays a foundation for understanding display technology. Of various flat panel display devices, LCDs, OLEDs and PDPs are the main subjects of this course. The operation principle, structure, characteristics, fabrication technologies of each display device will be covered.

    Syllabus          Lecture note & Board

     

    Display Driving Circuits

    This course deals with fundamentals of driving methods of major flat panel displays including STN-LCD, TFT-LCD, OLED, PDP and projection displays. This course will cover other important circuits like backlight driving system, timing controller and power supply circuit and introduce state-of-the-art technologies of concern.

    Syllabus          Lecture note & Board