Advanced Electronic Circuits [E-Book] / by Ulrich Tietze, Christoph Schenk.
In the earlier stages of integrated circuit design, analog circuits consisted simply of type 741 operational amplifiers, and digital circuits of 7400-type gates. Today's designers must choose from a much larger and rapidly increasing variety of special integrated circuits marketed by a dynamic...
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Full text |
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Personal Name(s): | Tietze, Ulrich, author |
Schenk, Christoph, author | |
Imprint: |
Berlin, Heidelberg :
Springer,
1978
|
Physical Description: |
X, 510 p. online resource. |
Note: |
englisch |
ISBN: |
9783642812415 |
DOI: |
10.1007/978-3-642-81241-5 |
Subject (LOC): |
- 1 Linear and non-linear operational circuitry
- 1.1 Summing amplifier
- 1.2 Subtracting circuits
- 1.3 Bipolar-coefficient circuit
- 1.4 Integrators
- 1.5 Differentiators
- 1.6 Solution of differential equations
- 1.7 Function networks
- 1.8 Analog multipliers
- 1.9 Transformation of coordinates
- 2 Controlled sources and impedance converters
- 2.1 Voltage-controlled voltage sources
- 2.2 Current-controlled voltage sources
- 2.3 Voltage-controlled current sources
- 2.4 Current-controlled current sources
- 2.5 NIC (negative impedance converter)
- 2.6 Gyrator
- 2.7 Circulator
- 3 Active filters
- 3.1 Basic theory of lowpass filters
- 3.2 Lowpass/highpass transformation
- 3.3 Realization of first order lowpass and highpass filters
- 3.4 Realization of second order lowpass and highpass filters
- 3.5 Realization of lowpass and highpass filters of higher orders
- 3.6 Lowpass/bandpass transformation
- 3.7 Realization of second order bandpass filters
- 3.8 Lowpass/band-rejection filter transformation
- 3.9 Realization of second order rejection filters
- 3.10 Allpass filters
- 3.11 Adjustable universal filter
- 4 Broadband amplifiers
- 4.1 Frequency dependence of the current gain
- 4.2 Influence of transistor and stray capacitances
- 4.3 Cascode amplifier
- 4.4 Differential amplifier as a broadband amplifier
- 4.5 Symmetrical broadband amplifiers
- 4.6 Broadband voltage follower
- 4.7 Broadband operational amplifiers
- 5 Power amplifiers
- 5.1 Emitter follower as a power amplifier
- 5.2 Complementary emitter followers
- 5.3 Electronic current limiter
- 5.4 Complementary emitter followers using Darlington circuits
- 5.5 Rating a power output stage
- 5.6 Driver circuits with voltage gain
- 5.7 Boosting the output current of integrated operational amplifiers
- 6 Power supplies
- 6.1 Properties of mains transformers
- 6.2 Transformer rectifiers
- 6.3 Series regulation
- 6.4 Generation of the reference voltage
- 6.5 Switching power supplies
- 7 Analog switches and comparators
- 7.1 Principle
- 7.2 Electronic switches
- 7.3 Analog switch using amplifiers
- 7.4 Sample-and-hold circuits
- 7.5 Analog comparators
- 7.6 Schmitt trigger
- 8 Signal generators
- 8.1 LC oscillators
- 8.2 Quartz oscillators
- 8.3 RC sinewave oscillators
- 8.4 Function generators
- 8.5 Multivibrators
- 9 Combinatorial logic circuitry
- 9.1 Coding circuits
- 9.2 Multiplexer and demultiplexer
- 9.3 Unclocked shift register
- 9.4 Digital comparators
- 9.5 Adders
- 9.6 Multipliers
- 9.7 Digital function networks
- 10 Sequential logic circuitry
- 10.1 Straight binary counters
- 10.2 BCD counters in 8421 code
- 10.3 Presettable counters
- 10.4 Shift registers
- 10.5 Generation of pseudo-random sequences
- 10.6 Processing of asynchronous signals
- 10.7 Systematic design of sequential circuits
- 11 Microprocessors
- 11.1 Basic structure of a microcomputer
- 11.2 Operation of a microprocessor
- 11.3 Instruction set
- 11.4 Development aids
- 11.5 Microcomputer hardware
- 11.6 Input/output circuits
- 11.7 Minimum systems
- 12 Digital filters
- 12.1 Sampling theorem
- 12.2 Digital transfer function
- 12.3 Bilinear transformation
- 12.4 Construction of digital filters
- 13 Data transmission and display
- 13.1 Transmission lines
- 13.2 Error detection and correction
- 13.3 Static digital displays
- 13.4 Multiplex displays
- 14 D/A and A/D converters
- 14.1 Design principles of D/A converters
- 14.2 Design of D/A converters using electronic switches
- 14.3 D/A converters for special applications
- 14.4 Basic principles of A/D conversion
- 14.5 Accuracy of A/D converters
- 14.6 Design of A/D converters
- 15 Measurement circuits
- 15.1 Measurement of voltage
- 15.2 Measurement of current
- 15.3 A.C./D.C. converters
- 16 Electronic controllers
- 16.1 Underlying principles
- 16.2 Controller types
- 16.3 Control of non-linear systems
- 16.4 Phase-locked loop
- 17 Appendix: Definitions and nomenclature.