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Download Chapter 1 (Part 3) - Introduction to Basic Filters
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Transcript
Chapter 1 (cont…) Part 3 Introduction to Basic Filter 1 Objectives To understand different types of filters To study the characteristics of filters 2 Lecture overview Types of filters Characteristics of filters 3 What is filter? Filter is a circuit that passes a specific range of frequencies while rejecting other frequencies. 4 Introduction to Filters What is passive filter /active filter ? A passive filter consists of passive circuit elements such as capacitors, inductors and resistors . An active filter uses active devices such as op-amps combined with passive elements. 5 Introduction to Filters The passive elements provide frequency selectivity. The active devices provide voltage gain, high input impedance and low output impedance. 6 Types of filters Four basic types of filters: 1. LOW PASS FILTER 3. BAND PASS FILTER 2. HIGH PASS FILTER FILTER 4. BAND STOP 7 Types of filters Low Pass Filter (LPF) High Pass Filter (LPF) Pass all frequencies below cutoff frequency and reject all frequencies above cutoff frequency Pass all frequencies above the cutoff frequency and reject all frequencies below the cutoff frequency 8 Types of filters Band Pass Filter (BPF) Passes all frequencies within a band of frequencies and reject all other frequencies outside the band. Band Stop Filter ( Notch) Reject all frequencies within a band of frequencies and passes all other frequencies outside the band. 9 Ideal filters;LPF,HPF,BPF and BPF 10 Simple RC LPF Circuit 11 Simple RC LPF response curve or Bode Plot. 12 Characteristics of Filters The most common way to describe the frequency response characteristics of a filter is to plot the filter voltage gain (Vout/Vin) in dB as a function of frequency (f). What is cutoff Frequency? The frequency at which the output power gain drops to 50% of the maximun value is called cutoff frequency. 13 Characteristics of Filters (cont..) When the output power gain drops to 50%, the voltage gain drops 3 dB (0.707 of the maximun value. The filter network voltage gain in dB is calculated from the actual voltage gain (A) using the equation A(dB) = 20 log A Where A=Vout/Vin 14 Characteristics of Filters (cont..) What is Roll-Off Rates (ROR)? ROR is given in dB per decade (dB/dec) or dB per octave (dB/oct). # dB/dec = (20/6) x # dB/oct. 15 Characteristics of Filters (cont..) What is Q or Shape Factor (SF)? 16 BPF frequency response 17 Typical LPF bode plot 18 Examples 3.1 What determines the Q of a filter? 3.2 What is the bandwidth of a filter with a Q of 75 and a center frequency of 375 MHz? 3.3 If the -6B bandwidth of a filter is 3.1 KHz, determine the -60dB bandwidth if the filter shape factor is 1.45? 19 At the end of this chapter, you should be able To understand different types of filters To study the characteristics of filters 20 END OF PART 3 21
