Analog and Digital Filter DesignElsevier, 24 Eki 2002 - 450 sayfa Unlike most books on filters, Analog and Digital Filter Design does not start from a position of mathematical complexity. It is written to show readers how to design effective and working electronic filters. The background information and equations from the first edition have been moved into an appendix to allow easier flow of the text while still providing the information for those who are interested. The addition of questions at the end of each chapter as well as electronic simulation tools has allowed for a more practical, user-friendly text.
|
İçindekiler
| 13 | |
| 19 | |
| 41 | |
Chapter 3 Poles and Zeroes | 83 |
Chapter 4 Analog Lowpass Filters | 125 |
Chapter 5 Highpass Filters | 147 |
Chapter 6 Bandpass Filters | 173 |
Chapter 7 Bandstop Filters | 199 |
Chapter 12 Transmission Lines and Printed Circuit Boards as Filters | 307 |
Chapter 13 Filters for PhaseLocked Loops | 321 |
Chapter 14 Filter Integrated Circuits | 335 |
Chapter 15 Introduction to Digital Filters | 353 |
Chapter 16 Digital FIR Filter Design | 377 |
Chapter 17 IIR Filter Design | 395 |
Design Equations | 409 |
| 437 | |
Chapter 8 Impedance Matching Networks | 223 |
Chapter 9 PhaseShift Networks AllPass Filters | 243 |
Chapter 10 Selecting Components for Analog Filters | 285 |
Chapter 11 Filter Design Software | 299 |
Answers | 439 |
| 447 | |
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
active filter allow amplitude analog applied attenuation axis bandpass filter bandstop filter bandwidth becomes Bessel Butterworth calculated capacitor Cauer Chapter Chebyshev filters circuit clock coefficient component values connected Consider cutoff frequency Denormalization depends described diagram divided domain element equal equations example factor Figure filter design filter order formulae frequency response gain given gives group delay higher highpass imaginary impedance increases inductance inductor input Inverse Chebyshev less limit load load impedance lower lowpass filter matching multiplied needed negative normalized op-amp output parallel pass passband passive phase pole and zero pole locations positive produce range ratio reduce replaced resistance resistor resonant result ripple S-plane sampling scaling second-order shown in Figure shunt signal simple stage step stopband Table transfer function transform voltage window zero locations
Popüler pasajlar
Sayfa 38 - Response (IIR) filters, which are recursive because part of the output signal is fed back to the input. The...
Sayfa 47 - Bessel response is smooth in the passband, and attenuation rises smoothly in the stopband. The stopband attenuation increases very slowly until the signal frequency is several times higher than the cutoff point.
Sayfa 44 - Chebyshev filters have ripple in the passband; this allows the initial rate of attenuation to increase more rapidly with frequency than a Butterworth filter of equal order. The steepness of the skirt depends on the ripple allowed.