Barry L. Dorr
Ten Essential Skills for Electrical Engineers (eBook, ePUB)
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Barry L. Dorr
Ten Essential Skills for Electrical Engineers (eBook, ePUB)
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The book is a review of essential skills that an entry-level or experienced engineer must be able to demonstrate on a job interview and perform when hired. It will help engineers prepare for interviews by demonstrating application of basic principles to practical problems. Hiring managers will find the book useful because it defines a common ground between the student's academic background and the company's product or technology-specific needs, thereby allowing managers to minimize their risk when making hiring decisions. Ten Essential Skills contains a series of "How to" chapters. Each…mehr
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The book is a review of essential skills that an entry-level or experienced engineer must be able to demonstrate on a job interview and perform when hired. It will help engineers prepare for interviews by demonstrating application of basic principles to practical problems. Hiring managers will find the book useful because it defines a common ground between the student's academic background and the company's product or technology-specific needs, thereby allowing managers to minimize their risk when making hiring decisions. Ten Essential Skills contains a series of "How to" chapters. Each chapter realizes a goal, such as designing an active filter or designing a discrete servo. The primary value of these chapters, however, is that they apply engineering fundamentals to practical problems. The book is a handy reference for engineers in their first years on the job. * Enables recent graduates in engineering to succeed in challenging technical interviews * Written in an intuitive, easy-to-follow style for the benefit of busy students and employers * Book focuses on the intersection between company-specific knowledge and engineering fundamentals * Companion website includes interview practice problems and advanced material
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 268
- Erscheinungstermin: 21. Januar 2014
- Englisch
- ISBN-13: 9781118807682
- Artikelnr.: 40390973
- Verlag: John Wiley & Sons
- Seitenzahl: 268
- Erscheinungstermin: 21. Januar 2014
- Englisch
- ISBN-13: 9781118807682
- Artikelnr.: 40390973
BARRY L. DORR, PE, is a Principal Design Engineer at Datron World Communications. He has taught Circuit Analysis at San Diego State University, Servo Systems for the IEEE, and numerous industrial seminars. He holds eight patents for signal processing and communication devices, and has contributed articles to Embedded Computing Magazine, Electronic Design News, and various trade publications.
Preface xi Acknowledgments xiii About the Author xv About the Reviewers xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1 Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4 1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT A POWER TRANSISTOR FROM OVERHEATING19 2.1 Electrical Model for Heat Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3 Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems 30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a Transfer Function 34 3.2 Frequency Response and Impedance of Simple Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized Technique for Determining Frequency Response54 Problems 58 References 60 4 HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN61 4.1 Independent Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76 References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive Description of a Control System 80 5.2 Review of Control System Operation 81 5.3 Performance of Control Systems 84 5.4 First-Order Control System Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization of a Second-Order Control System 94 5.7 First-Order Discrete Control System 95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1 The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading 116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems 146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function andFrequency Response of Digital Filters 155 8.3 FIR and IIR Digital Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183 9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to Display Impedance Versus Frequency205 9.7 Final Comments Regarding the Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A JOB--ENJOYING YOUR WORK211 10.1 Getting a Job 212 10.1.1 Getting an Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview 217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227 Afterword 231 Answers to Problems 233 Index 243
Preface xi Acknowledgments xiii About the Author xv About the Reviewers
xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1
Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4
1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT
A POWER TRANSISTOR FROM OVERHEATING 19 2.1 Electrical Model for Heat
Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3
Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems
30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a
Transfer Function 34 3.2 Frequency Response and Impedance of Simple
Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized
Technique for Determining Frequency Response 54 Problems 58 References 60 4
HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN 61 4.1 Independent
Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a
Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76
References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive
Description of a Control System 80 5.2 Review of Control System Operation
81 5.3 Performance of Control Systems 84 5.4 First-Order Control System
Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization
of a Second-Order Control System 94 5.7 First-Order Discrete Control System
95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1
The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset
Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic
Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading
116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN
ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC
Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of
Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of
Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems
146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of
Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function
and Frequency Response of Digital Filters 155 8.3 FIR and IIR Digital
Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons
between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital
Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR
Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183
9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal
Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on
Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to
Display Impedance Versus Frequency 205 9.7 Final Comments Regarding the
Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A
JOB--ENJOYING YOUR WORK 211 10.1 Getting a Job 212 10.1.1 Getting an
Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview
217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The
First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227
Afterword 231 Answers to Problems 233 Index 243
xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1
Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4
1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT
A POWER TRANSISTOR FROM OVERHEATING 19 2.1 Electrical Model for Heat
Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3
Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems
30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a
Transfer Function 34 3.2 Frequency Response and Impedance of Simple
Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized
Technique for Determining Frequency Response 54 Problems 58 References 60 4
HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN 61 4.1 Independent
Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a
Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76
References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive
Description of a Control System 80 5.2 Review of Control System Operation
81 5.3 Performance of Control Systems 84 5.4 First-Order Control System
Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization
of a Second-Order Control System 94 5.7 First-Order Discrete Control System
95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1
The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset
Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic
Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading
116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN
ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC
Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of
Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of
Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems
146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of
Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function
and Frequency Response of Digital Filters 155 8.3 FIR and IIR Digital
Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons
between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital
Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR
Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183
9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal
Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on
Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to
Display Impedance Versus Frequency 205 9.7 Final Comments Regarding the
Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A
JOB--ENJOYING YOUR WORK 211 10.1 Getting a Job 212 10.1.1 Getting an
Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview
217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The
First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227
Afterword 231 Answers to Problems 233 Index 243
Preface xi Acknowledgments xiii About the Author xv About the Reviewers xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1 Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4 1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT A POWER TRANSISTOR FROM OVERHEATING19 2.1 Electrical Model for Heat Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3 Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems 30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a Transfer Function 34 3.2 Frequency Response and Impedance of Simple Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized Technique for Determining Frequency Response54 Problems 58 References 60 4 HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN61 4.1 Independent Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76 References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive Description of a Control System 80 5.2 Review of Control System Operation 81 5.3 Performance of Control Systems 84 5.4 First-Order Control System Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization of a Second-Order Control System 94 5.7 First-Order Discrete Control System 95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1 The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading 116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems 146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function andFrequency Response of Digital Filters 155 8.3 FIR and IIR Digital Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183 9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to Display Impedance Versus Frequency205 9.7 Final Comments Regarding the Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A JOB--ENJOYING YOUR WORK211 10.1 Getting a Job 212 10.1.1 Getting an Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview 217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227 Afterword 231 Answers to Problems 233 Index 243
Preface xi Acknowledgments xiii About the Author xv About the Reviewers
xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1
Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4
1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT
A POWER TRANSISTOR FROM OVERHEATING 19 2.1 Electrical Model for Heat
Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3
Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems
30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a
Transfer Function 34 3.2 Frequency Response and Impedance of Simple
Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized
Technique for Determining Frequency Response 54 Problems 58 References 60 4
HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN 61 4.1 Independent
Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a
Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76
References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive
Description of a Control System 80 5.2 Review of Control System Operation
81 5.3 Performance of Control Systems 84 5.4 First-Order Control System
Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization
of a Second-Order Control System 94 5.7 First-Order Discrete Control System
95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1
The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset
Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic
Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading
116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN
ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC
Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of
Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of
Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems
146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of
Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function
and Frequency Response of Digital Filters 155 8.3 FIR and IIR Digital
Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons
between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital
Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR
Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183
9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal
Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on
Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to
Display Impedance Versus Frequency 205 9.7 Final Comments Regarding the
Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A
JOB--ENJOYING YOUR WORK 211 10.1 Getting a Job 212 10.1.1 Getting an
Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview
217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The
First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227
Afterword 231 Answers to Problems 233 Index 243
xvii Note to Instructors xxi 1 HOW TO DESIGN RESISTIVE CIRCUITS 1 1.1
Design of a Resistive Thevenin Source 2 1.2 Design of a Coupling Circuit 4
1.3 Design of a Pi Attenuator 8 Problems 14 References 17 2 HOW TO PREVENT
A POWER TRANSISTOR FROM OVERHEATING 19 2.1 Electrical Model for Heat
Transfer 20 2.2 Using Manufacturer's Data for Thermal Analysis 23 2.3
Forced-Air Cooling 26 2.4 Dynamic Response of a Thermal System 27 Problems
30 Reference 32 3 HOW TO ANALYZE A CIRCUIT 33 3.1 Frequency Response of a
Transfer Function 34 3.2 Frequency Response and Impedance of Simple
Circuits 38 3.3 Frequency Response for Ladder Networks 51 3.4 Generalized
Technique for Determining Frequency Response 54 Problems 58 References 60 4
HOW TO USE STATISTICS TO ENSURE A MANUFACTURABLE DESIGN 61 4.1 Independent
Component Failures 62 4.2 Using the Gaussian Distribution 63 4.3 Setting a
Manufacturing Test Limit 68 4.4 Procuring a Custom Component 71 Problems 76
References 77 5 HOW TO DESIGN A FEEDBACK CONTROL SYSTEM 79 5.1 Intuitive
Description of a Control System 80 5.2 Review of Control System Operation
81 5.3 Performance of Control Systems 84 5.4 First-Order Control System
Design 84 5.5 Second-Order Control System Design 88 5.6 Circuit Realization
of a Second-Order Control System 94 5.7 First-Order Discrete Control System
95 Problems 101 References 102 6 HOW TO WORK WITH OP-AMP CIRCUITS 103 6.1
The Ideal Op-Amp 104 6.2 Practical Op-Amps 108 6.2.1 Effect of Input Offset
Voltage 108 6.2.2 Noise Contribution from Op-Amp Circuits 110 6.2.3 Dynamic
Characteristics of Op-Amp Circuits 113 6.2.4 Effect of Capacitive Loading
116 6.2.5 A Nagging Issue 118 Problems 119 References 121 7 HOW TO DESIGN
ANALOG FILTERS 123 7.1 Passive Versus Active Filters 124 7.2 The Lowpass RC
Filter 125 7.3 Filter Response Characteristics 129 7.4 Specification of
Filter Type 131 7.5 Generalized Filter Design Procedure 132 7.6 Design of
Active Lowpass Filters 136 7.7 Design of Passive RF Filters 139 Problems
146 References 148 8 HOW TO DESIGN DIGITAL FILTERS 149 8.1 Review of
Sampling 150 8.2 Using the z-Transform to Determine the Transfer Function
and Frequency Response of Digital Filters 155 8.3 FIR and IIR Digital
Filters 161 8.3.1 FIR Filters 162 8.3.2 IIR Filters 165 8.3.3 Comparisons
between FIR and IIR Filters 167 8.4 Design of Simple and Practical Digital
Filters 168 8.4.1 Averaging Lowpass FIR Filter 168 8.4.2 Lowpass FIR/IIR
Filter 171 Problems 177 References 181 9 HOW TO WORK WITH RF SIGNALS 183
9.1 Energy Transfer 185 9.2 Signal Reflections 187 9.3 Effect of Signal
Reflections on Digital Signals 190 9.4 Effect of Signal Reflections on
Narrowband Signals 195 9.5 The Smith Chart 198 9.6 Using the Smith Chart to
Display Impedance Versus Frequency 205 9.7 Final Comments Regarding the
Smith Chart 205 Problems 206 References 209 10 GETTING A JOB--KEEPING A
JOB--ENJOYING YOUR WORK 211 10.1 Getting a Job 212 10.1.1 Getting an
Interview 214 10.1.2 Preparing for an Interview 216 10.1.3 The Interview
217 10.1.4 Selecting the Right Offer 220 10.2 Keeping a Job 221 10.2.1 The
First Year 221 10.2.2 After the First Year 224 10.3 Enjoying Your Work 227
Afterword 231 Answers to Problems 233 Index 243