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Tables of Contents for Filter Design
Chapter/Section Title
Page #
Page Count
Preface
10
3
CHAPTER 1 Introduction to Filter Applications
13
8
Filter Types
14
1
Background
15
3
The Path to Filter Design
18
3
CHAPTER 2 Time and Frequency Response
21
60
Filter Requirements
21
1
The Frequency Domain
22
4
The Time Domain
26
1
Filter Normalisation
27
1
Normalised Lowpass Responses
27
1
Bessel Response
27
12
Butterworth Response
39
9
Chebyshev Response
48
15
Inverse Chebyshev Response
63
8
Cauer Response
71
5
The Cut-off Frequency
76
1
Noise Bandwidth
76
5
CHAPTER 3 Poles, Zeroes and Modern Network Theory
81
48
Frequency and Time Domain Relationship
81
1
The S Plane
82
3
Laplace - Converting the Time Domain into the Frequency Domain
85
5
Poles and Zeroes - a Quick Look
90
2
Butterworth Pole Locations
92
3
Bessel Pole Locations
95
2
Chebyshev Pole Locations
97
13
Inverse Chebyshev Pole and Zero Locations
110
2
Inverse Chebyshev Zeroes
112
9
Cauer Pole and Zero Locations
121
8
CHAPTER 4 Lowpass Filters
129
14
Passive Filters
129
5
Active Lowpass Filters
134
7
Denormalising Active Filter Designs
141
2
CHAPTER 5 Highpass Filters
143
20
Passive Filters
143
7
Active Highpass Filters
150
11
Denormalising Active Filter Designs
161
2
CHAPTER 6 Bandpass Filters
163
22
Passive Filters
164
8
Active Bandpass Filters
172
12
Denormalising Active Filter Designs
184
1
CHAPTER 7 Bandstop Filters
185
26
Passive Filters
186
10
Active Bandstop Filters
196
14
Denormalising Active Filter Designs
210
1
CHAPTER 8 Diplexer Filters
211
10
Power Splitters and Combiners
213
3
Designing a Diplexer
216
5
CHAPTER 9 Phase Shift Networks (All-Pass Filters)
221
42
Phase Equalising All-Pass Filters: Introduction to the Problem
221
1
Detailed Analysis
222
2
The Solution: All-Pass Networks
224
9
Equalisation of Butterworth and Chebyshev filters
233
19
Quadrature Networks and Single Sideband Generation
252
11
CHAPTER 10 Selecting Components for Analogue Filters
263
14
Capacitors
263
4
Inductors
267
3
Resistors
270
1
The Printed Circuit Board
271
2
Assembly and Test
273
1
Operational Amplifiers
273
2
Measurements on Filters
275
2
CHAPTER 11 Filter Design Software
277
14
Filter Design Programs
277
9
Supplied Software
286
5
CHAPTER 12 Transmission Lines and Printed Circuit Boards as Filters
291
16
Transmission Lines as Filters
292
10
Printed Circuits as Filters
302
5
CHAPTER 13 Filters for Phase Locked Loops
307
12
Analogue Versus Digital Phase Locked Loop
312
1
Practical Digital Phase Locked Loop
312
4
Phase Noise
316
1
Capture and Lock Range
316
3
CHAPTER 14 Filter Integrated Circuits
319
18
Continuous Time Filters
319
4
Switched Capacitor Filters
323
5
An Application of Switched Capacitor Filters
328
8
Conclusion
336
1
CHAPTER 15 Introduction to Digital Filters Using a DSP
337
24
Data Sampling
337
3
Digital Filtering
340
1
Digital Lowpass Filters
340
3
Truncation (Applied to FIR Filters)
343
4
DSP Implementation of an FIR Filter
347
1
Introduction to the Infinite Impulse Response Filter
348
2
DSP Mathematics
350
7
Signal Handling
357
1
So, Why Use a Digital Filter?
358
3
Bibliography
361
2
Index
363