We lecture RF transceiver systems, RF CMOS circuits, analog CMOS circuits, integrated CMOS/MEMS technology, and ultra-low-power CMOS circuits as a state-of-the-art integrated circuit technology. This class reviews examples and future trends of the integrated circuit design. Acquisition of the VLSI Engineering I is recommended.
(1)Understand of technology trend of integrated circuit.
(2)Understand of fundamentals of analogy CMOS circuit
(3)Understand of CMOS A/D converters
(4)Understand of RF CMOS circuit and RF transceiver circuit
Si, CMOS, analog circuit, integrated circuit
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | ✔ Practical and/or problem-solving skills |
Lecture
Course schedule | Required learning | |
---|---|---|
Class 1 | Introduction of integrated circuit | Understanding of the technology trend of integrated circuit and its impact in the internet era. |
Class 2 | MOSFET devices (I) | Understanding of MOSFET structures and electric characteristics Understanding of the short channel effect and miniaturization according to the scaling |
Class 3 | MOSFET devices (I) | Understanding of circuit simulator and SPICE model of MOSFET |
Class 4 | Fudamentals of CMOS circuit (I) | Understanding of amplifier circuit |
Class 5 | Fudamentals of CMOS circuit (II) | Understanding of reference circuit |
Class 6 | Fudamentals of CMOS circuit (III) | Understanding of filter circuit |
Class 7 | A/D conveters (I) | Fundamental of A/D converters |
Class 8 | AD conveters (II) | Understanding of Nyquist A/D conveters |
Class 9 | AD converters (III) | Undestanding of oversampling A/D converters |
Class 10 | RF CMOS circuit (I) | Fundamental of RF tranceiver |
Class 11 | RF CMOS circuit (II) | Understanding of frequency synthesizer circuit |
Class 12 | RF CMOS circuit (III) | Understanding of transmitter and receiver circuits. |
Class 13 | CMOS/MEMS technology (I) | Understanding of fundamentals of MEMS |
Class 14 | CMOS/MEMS technology (II) | High performance CMOS/MEMS accerelometer |
Class 15 | SoC technology | Understanding of the meaning of integration and integrity |
None
Distributed in the class
Report and examination
Knowledge of mathematics, electrical circuit thoery, semiconductor devices
Kazuya Masu (masu.k.aa[at]m.titech.ac.jp)
9:00-17:00 Email appointment is required
None