분야
강의자한건희
수료증발급
신청기간1970-01-01 ~ 1970-01-01
학습기간2022-06-01 ~ 2022-08-31
학습언어한국어 (ko)
[강좌 요약]
전기 전자공학 관련학과에서 반도체 설계분야 학부 2~4학년 및 대학원 기초 과목으로 다루는 핵심 개념들을 전체적이며 통합된 흐름으로 설명
[강좌 목적]
회로의 해석 및 설계는 수학, 신호, 통신, 제어 등 많은 과목과 선후 관계가 얽혀 있어 학부 재학시절에 전공과목으로 수강하였다고 하더라도 기본적인 개념들을 명료하게 이해하고 그들 간의 연관관계를 통찰하기 어렵다.
본 강좌는 반도체 관련 산업에서 기획, 개발, 생산, 평가, 응용, 판매에 종사하는 관련학과 졸업자들에게 필요한 개념을 재정립하고 관점과 시야을 넓혀줌으로써 업무역량을 향상함을 목적으로 한다.
[교수자 소개]
연세대학교 글로벌융합공학부 한건희 교수
[상세 커리큘럼]
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주제명 |
차시명 |
키워드 |
콘텐츠 분량 |
1 |
Introduction |
1-0 Introduction |
objective, intended viewer, table of contents |
5 : 15 |
1-1 Circuit Element |
R, L, C, voltage, current, dependent source |
8 : 09 |
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1-2 Circuit Analysis |
nodal analysis, mesh analysis |
9 : 35 |
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1-3 Differential Equation |
Lapace, general/homogeneous/particular |
5 : 11 |
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1-4 Frequency Response |
pole and zero, bode plot |
10 : 55 |
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2 |
Semiconductor |
2-1 Semiconductor |
crystal, bonding, doping, , carrier, conduction |
10 : 23 |
2-2 PN Junction |
depletion, forward, reverse, current |
15 : 20 |
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2-3 Switching Device |
diode, triode, transistor, active switch |
15 : 33 |
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3 |
MOS FET |
3-1 MOS Device |
structure, inversion, threshold, channel |
9 : 03 |
3-2 MOS FET |
linear region, saturation region, weak-inversion |
14 : 41 |
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3-3 Logic Circuit |
complimentary circuit, gate, delay |
11 : 57 |
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4 |
OP Analysis |
4-1 Operating Point |
operating point, approximation |
8 : 46 |
4-2 FET Operating Point |
operating region, Biasing |
9 : 30 |
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4-3 Current Biasing |
current biasing, operating current, degeneration, |
12 : 09 |
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5 |
DC Analysis |
5-1 DC Analysis |
operating range |
10 : 53 |
5-2 CMOS Inverter |
current source, output resistance, current mirror |
9 : 19 |
||
5-3 Differential Amplifier |
differential signal, differential pair, OP Amp |
9 : 18 |
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6 |
Small-signal Analysis |
6-1 Small-signal Analysis |
operating point, linear model, |
6 : 15 |
6-2 Small-signal Equivalent Circuit |
equivalent tansconductance, resistance, model |
6 : 36 |
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6-3 Output Resistance |
equivalent resistance, trans-conductance |
7 : 41 |
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7 |
Amplifiers |
7-1 Amplifier |
common source, common drain, common gate |
7 : 59 |
7-2 Cascode Amplifier |
cascode, output resistance, mirrored OTA |
9 : 12 |
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7-3 Cascade Amplifier |
multi stage amplifier, loading effect |
7 : 33 |
||
7-4 Output Stage |
driver, class, power efficiency, dictortion |
9 : 27 |
||
8 |
AC Analysis |
8-1 AC Analysis |
small signal circuit, capacitance, pole and zero, |
14 : 12 |
8-2 AC Equivalent Circuit |
parasitic capacitance, unity gain frequqncy |
9 : 32 |
||
8-3 Quick AC Analysis |
miller effect, impedance reflection |
12 : 54 |
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9 |
Transient Analysis |
9-1 Transient Analysis |
inverting, noninverting, trans-impdeance |
4 : 07 |
9-2 Circuit Simulation |
Simulator Structure and engine |
10 : 08 |
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9-3 PSPICE |
DC, AC, transient simulation, device library |
19 : 49 |
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10 |
Operational Amplifier |
10-1 OP Amp |
closed loop, virtual short circuit |
11 : 21 |
10-2 Active Filter |
integrator, weighted sum, continuous-time filter |
9 : 17 |
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10-3 Switched-Capacitor |
MOS switch, charge amplifier, discrete-time |
15 : 41 |
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10-4 Practical OP Amp |
GB effect, finite gain effect |
5 : 55 |
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11 |
Feedback Circuit |
11-1 Feedback Fundamentals |
error minimization, transfer function |
11 : 01 |
11-2 Feedback Circuits |
gm boosting, regulated cascode, |
13 : 26 |
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11-3 Stability |
Nyquist method, |
14 : 53 |
||
11-4 Positive Feedback |
latch, negative impedance |
12 : 14 |
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12 |
Nonlinear Circuit |
12-1 Nonlinear Function |
folding, sigmoide, multiplier |
10 : 01 |
12-2 Oscillator |
tuned osc, relaxation osc, ring osc |
7 : 37 |
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12-3 Detector |
comparator, peak detector, median, slope, winner |
13 : 04 |
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13 |
Active Filter |
13-1 Filter Structure |
signal flow graph, mason rule, |
18 : 35 |
13-2 High-order Filter |
filter synthesis algorithm, Biquad |
21 : 54 |
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13-3 Filter Tools |
Matlab |
23 : 15 |
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14 |
Analog Digital Converter |
14-1 DAC |
digital to analog converter architecture |
14 : 50 |
14-2 ADC Architecture |
flash, single slope, SAR, cyclic, multi-stage |
16 : 04 |
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14-3 ADC Performance |
differential pair, single stage OTA, |
14 : 52 |
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- 문의 : 연세대학교 교무처 교수학습혁신센터 (02-2123-4201~4205)
- 연세대학교 LearnUs 추진팀 (learnus_office@yonsei.ac.kr)
포인트 사용
500포인트 적립
- 이수조건
- 수료조건
분야
강의자한건희
수료증발급
학습기간2022-06-01 ~ 2022-08-31
학습언어한국어 (ko)