Once a student passes the exam, he will be able: 1. To give and to explain: the types of substrates, fabrication technologies, fabrication techniques, integration scales, and semiconductor integrated circuit design methodologies. 2. To perform a detailed analysis of CMOS inverter and bilateral CMOS switch. 3. To perform an estimation of resistances, capacitances and inductances of active and passive components in semiconductor integrated technologies. 4. To model and analyze conducting and semiconducting lines presented as distributed RC parameters. 5. To explain the principle of large capacitance driving. 6. To give and to explain the dynamics characteristics, and to estimate power dissipation in semiconductor integrated circuits. 7. To perform the synthesis of digital electronic circuits implementing the logical operations. 8. To perform DC, AC and transient analysis of electronic circuits using simulation tools.
Name | Lectures | Exercises | Laboratory |
---|---|---|---|
MILENA ERCEG | 1x1 7S+3P | ||
NIKŠA TADIĆ | 3x1 7S+3P |