1. | ![]() |
5. MOSFETs | IV-characteristics(linear_), MOS circuit at DC, MOS as amp & swich, NMOS circuit symbols, operation region of PMOS | ![]() |
![]() |
5. MOSFETs | Relative voltage levels, DC biasing circuit , Diode-connected MOSFET, MOSFET in linear region, Gate-biasing circuit, PMOS biasing | ![]() |
|
2. | ![]() |
5. MOSFETs | Relative voltage levels, Biosing of feedback, Current- mirror current sourse | ![]() |
![]() |
5. MOSFETs | small signal operation, small signal models, T-model of MOSFET, Body effect, three basic MOS amplifiers, characteristic parameters, | ![]() |
|
3. | ![]() |
5. MOSFETs | Common-source amplifier, Small-signal equivalent-circuit, CS amplifier with RS, common-gate amplifier, CD orsourse-follower amplifier | ![]() |
![]() |
5. MOSFETs | Common-source amplifier | ![]() |
|
4. | ![]() |
5. MOSFETs 6. Integrated-Circuit Amplifiers | Miller capacitance, Analysis of CS amplifier, From silicon ingot to IC, Integrated circuit, designs, CMOS vs SiGe, Bipolar Ics, Intrinsic gain vs ID | ![]() |
5. | ![]() |
6. Integrated-Circuit Amplifiers | Unity gain frequency, Active-loaded CS amp, Increasing gain of basic cell, Cascode | ![]() |
![]() |
6. Integrated-Circuit Amplifiers | Cascode, small-signal equivalent model, Gm of cascode amplifier, R0 of cascode amplifier, Av of cascode amplifier, lncreasing R0 for PMOS, Cascode current-source, Double cascoding, Folded cascode amplifier, Voltage gain distribution, Impedance-transformation property, R0 of source-degenerated CS amp | ![]() |
|
6. | ![]() |
6. Integrated-Circuit Amplifiers | Direct-coupled amplifier, gain & bandwidth, bandwidth determination, Miller's theorem, open-circuit time constants, CS amplifier with active-load, HF equivalent circuit, Miller's approximation, Exact analysis, Finding zero | ![]() |
![]() |
6. Integrated-Circuit Amplifiers | BW with very low Rsig, Bode plot with very low Rsig, Active-loaded CG amplifier, With body effect, Small signal analysis, Open-circuit voltage gain, Output resistances, Impedance transformation, Current buffer operation, Frequency response of CG amp, Equivalent circuit of CG amp, Determining Rgs and Rgd, Cascode amplifier | ![]() |
|
7. | ![]() |
6. Integrated-Circuit Amplifiers | Open-circuit voltage gain (Avo), Performance comparison, Source-degenerated CS amp, Small signal analysis, Frequency response analysis, Determining Rgd, | ![]() |
8. | ![]() |
6. Integrated-Circuit Amplifiers | IC Biasing-Current Source, Current Mirrors, Current-Steering Circuits, Bandwidth Determination, Introduction, Integrated circuit designs, Introduction, Basic MOS defferential pair, | ![]() |
![]() |
6. Integrated-Circuit Amplifiers, 7. MOS Difference Pair | common-mode input voltage, Differential voltage (vid), Large-signal operations, Approximation for linearity, Linear range of operations, Differential input signals, Differentail gain, Alternatively, | ![]() |
|
9. | ![]() |
7. MOS Difference Pair | differential input signals, differential gain, differential pair with C-S Loads, cascode differential amplifier, common-mode gain, common mode half-circuit, effect of RD mismatch & CMRR, effect of gm mismatch & CMRR, input offset voltages | ![]() |
10. | ![]() |
7. MOS Difference Pair | input offset voltages, Vos, Differential to signal-ended, simple conversion, Active-loaded differential pair, short-circuit Gm, Detemining Ro, Differential gain, Frequency response, | ![]() |
11. | ![]() |
7. MOS Difference Pair | , Analysis of CS amplifier, From silicon ingot to IC, Integrated circuit, designs, CMOS vs SiGe, Bipolar Ics, Intrinsic gain vs ID, Multistage amplifiers | ![]() |
12. | ![]() |
7. MOS Difference Pair | Multistage amplifiers, Two-stage CMOS op-amp, Equivalent circuit, Bias circuit, | ![]() |
13. | ![]() |
9. Feedback | General Feedback structure, Advantage of feedback, Transfer function | ![]() |
14. | ![]() |
9. Feedback | Propetis of negative feedback, linerity, Looopgain, Stability, Effect o feedback on amplifiers, Stability chck by Bode plots, Effect of PM, Alternative approach, Frequency compensation | ![]() |
15. | ![]() |
9. Feedback | Frequency compensation, Implementation of freq. comp., Compensation cap. Cc, Miller compensation, Pole splitting, Exercise 9.1, Typical frequency response, Compensation cap. Cc | ![]() |
![]() |
9. Feedback | Exercise, Homework | ![]() |
이화여자대학교 연계강의
강의가 나오지 않을 때 - 인터넷 메뉴모음 - 도구 - 호환성 보기 설정-이 웹 사이트 추가에 ewha.ac.kr, kocw.net 사이트 추가
※ 강의별로 교수님의 사정에 따라 전체 차시 중 일부 차시만 공개되는 경우가 있으니 양해 부탁드립니다.