Chapter 10: Analog Integrated Circuits
10.1 The 741 OP-AMP circuit
10.2 DC analysis of the 741
10.3 Small-signal analysis of the 741 input stage
10.4 Small-signal analysis of the 741 second stage
10.5 Analysis of the 741 output stage
10.6 Gain and frequency response of the 741
10.7 CMOS OP AMPs
10.8 Alternative configurations for CMOS and BiCMOS OP AMPs
10.9 Data Converters - An introduction
10.10 D/A converter circuits
10.11 A/D converter circuits
Chapter 12: Signal generators and waveform-shaping circuits
12.1 Basic principles of sinusoidal oscillators
12.2 OP AMP- RC oscillator circuits
12.3 LC and crystal oscillators
12.4 Bistable multivibrators
12.5 Generation of square and triangular waveforms using astable multivibrators
12.6 Generation of a standardized pulse - the monostable multivibrator
12.7 Integrated-circuit timers
12.8 Nonlinear waveforms-shaping circuits
12.9 Precision rectifier circuits
Chapter 13: MOS digital circuits
13.1 Digital circuit design: An overview
13.2 Design and performance analysis of the CMOS inverters
13.3 CMOS logic-gate circuits
13.4 Pseudo-NMOS logic circuits
13.5 Pass-transistors logic circuits
13.6 Dynamic logic circuits
13.7 Latches and flip-flops
13.8 Multivibrator circuits
13.9 Semiconductor memories: types and architectures
13.10 Random-access memory (RAM) cells
13.11 Sense amplifiers and address decoders
13.12 Read-only memory (ROM)
Chapter 14: Bipolar and advanced-technology digital circuits
14.1 Dynamic operation of the BJT switch
14.2 Early forms of BJT digital circuits
14.3 Transistor-transistor logic (TTL)
14.4 Characteristics of standard TTL
14.5 TTL families with improved performance
14.6 Emitter-coupled logic (ECL)
|