1Preface
65Chapter
2Chapter
664 Types of Amplifier’s Applications
31 Oscillators
674.1 Tuned amplifier applications
41.1 Introduction
684.1.1 Introduction
51.2 The principles of oscillation
694.1.2 Tuned Circuit
61.3 The basic structure and requirements of an oscillator
704.1.3 The Q Factor
71.4 RC oscillators
714.1.4 Dynamic Impedance
81.4.1 Phase-shift Oscillators
724.1.5 Gain and Bandwidth
91.4.2 Wien Bridge Oscillator
734.1.6 Effect of Loading
101.4.3 The Twin-T Oscillator
744.1.7 Effect of Tapping the Tuning Coil
111.5 LC Oscillators
754.1.8 Transformer-coupled Amplifier
121.5.1 The Colpitts Oscillator
764.1.9 Tuned Primary
131.5.2 The Hartley Oscillator
774.1.10 Tuned Secondary
141.5.3 The Clapp Oscillator
784.1.11 Double Tuning
151.5.4 The Armstrong Oscillator
794.1.12 Crystal and Ceramic Tuned Amplifier
161.6 Crystal oscillators
804.2 Power amplifiers
171.7 Crystal cuts
814.2.1 Introduction
181.8 Types of crystal oscillator
824.2.2 Transistor Characteristics and Parameters
191.9 Oscillator frequency stability
834.2.3 Small signal Voltage Amplifiers
201.10 Integrated circuit oscillators
844.2.4 Calculating Power and Efficiency
211.11 Exercise
854.2.5 Integrated Circuit Power Amplifiers
22Chapter
864.2.6 TBA 820M
232 Modulation Systems
874.2.7 TDA2006
242.1 Introduction
884.3 Phase-locked loops and synthesizers
252.1.1 Analog Modulation Techniques
894.3.1 Operational Considerations
262.1.2 Power Distribution in an AM wave
904.3.2 Phase-locked Loop Element
272.1.3 Amplitude Modulation Techniques
914.3.3 Phase Detector
282.2 The balanced modulator or demodulator Concepts of
924.3.4 Amplifier
292.3 Frequency modulation and demodulation : 2.3.1 Bandwidth and Carson’s rule
934.3.5 Voltage-controlled Oscillator
302.4 FM modulators
944.3.6 Filter
312.5 FM demodulators
954.3.7 Compensation
322.5.1 The Phase-locked Loop Demodulator
964.3.8 The Bode Plot
332.5.2 The Ratio Detector
974.3.9 Delay Networks
342.6 Digital modulation techniques
984.3.10 Phase-locked loop Design Using the HCC40468
352.6.1 Frequency Shift Keying
994.3.11 Frequency Synthesis
362.6.2 Phase Shift Keying (BPSK)
1004.4 Exercise
372.6.3 Quadrature Phase-shift Keying
101Chapter
382.7 Exercise
1025 Microwave Devices and Components
39Chapter
1035.1 Introduction
403 Filter Applications
1045.2 Phase delay and propagation velocity
413.1 Introduction
1055.3 The propagation constant and secondary constant
423.2 Passive filters
1065.4 Transmission line distortion
433.2.1 Active Filters
1075.5 Standing wave ratio
443.2.2 Filter Response
1085.6 Fundamental web guide characteristics
453.2.3 Cut-off Frequency and Roll-off Rate
1095.6.1 Transmission Modes
463.2.4 Filter Types
1105.6.2 Skin Effect
473.2.5 Filter Orders
1115.6.3 The Rectangular Waveguide
483.3 First-order filters
1125.6.4 Cut-off Conditions
493.4 Design of first-order filters : 3.4.1 Low-pass Second-order Filters
1135.7 Microwave passive components
503.5 Using normalized tables
1145.7.1 Waveguide Junctions
513.6 Using identical components
1155.7.2 Probes
523.7 Second-order high-pass filter : 3.7.1 Bandpass Filter
1165.7.3 Circulators and Isolators
533.8 Switched capacitor filter
1175.8 Microwave active devices
543.9 Monolithic switched capacitor filter
1185.8.1 Solid-state Devices
553.10 The notch filter
1195.8.2 Microwave Tubes
563.10.1 Twin-T Network
1205.8.3 Multi Cavity Magnetrons
573.10.2 The State Variable Filter
1215.8.4 Klystrons
583.11 Choosing components for filters
1225.8.5 Reflex Klystrons
593.11.1 Resistor Selection
1235.8.6 Travelling-wave Tubes
603.11.2 Capacitor Selection
1245.9 Exercise
613.12 Testing filter response
125Appendix
623.12.1 Signal Generator and Oscilloscope Method
126Glossary
633.12.2 The Sweep Frequency Method
127Index
643.13 Exercise
