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연세대 전기전자공학부 20-1학기 기초아날로그실험 4주차 예비레포트 입니다.
이 보고서 성적은 만점(20/20)이며, 최종 성적은 A+를 받았습니다.

목차

Ⅰ. Chapter 7. Passive and Active Filters
1.Theory
1-1Definition and Classification of Filter
1-2Frequency Response
1-3Bode Plot
1-4Passive Filter
1-5Active Filter
1-6Op-Amp Datasheet - μa741

2.PSPICE simulation
2-1 Experiment 1: Passive Band-Reject Filter
2-2 Experiment 2: Passive Low-Pass Filter (LPF)
2-3 Experiment 3: Active Band-Reject Filter (BRF)

Ⅱ. Chapter 8. Oscillators and Timers
1.Theory
1-1Oscillators and Timers
1-2RC relaxation oscillator
1-3555 timer IC
1-4LED
1-5TIP31C
1-6μA741

2.PSPICE simulation
2-1 Experiment 1
2-2 Experiment 2
2-3 Experiment 3
2-4 Experiment 4
2-5 Experiment 5
2-6 Experiment 6

3. References

본문내용

In this chapter our goal is to understand the frequency response (transfer function) of filter and the characteristics of filter. Then, we will design various filters using PSPICE simulation.

1. Theory
1-1 Definition and Classification of Filter
A filter is a circuit that passes the desired signal with certain frequencies and rejects the unwanted signal with all other frequencies. The filter is used to reject interference or noise, and pass the range of frequencies with less than -3dB of attenuation.
Analog filter circuits can be classified into element types and frequency band types according to classification criteria. The element types are classified into passive and active filter. And the frequency band types are classified into low-pass, high-pass, band-pass, band-reject, and all-pass filter.

A low-pass filter passes frequency range from DC to cut-off frequency and eliminates high frequency components. A high-pass filter passes all frequencies above cut-off frequency and eliminates low frequency components. The frequency response of low-pass filter and high-pass filter are shown in [Figure 1-1] below.

참고 자료

Electronic devices conventional current version / Thomas L. Floyd