Digital electronic circuits with a grasp of the concept
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Description
Book Introduction
Analog and digital electronic circuits in one volume
Prepare for the communications and electronics qualification exams and the civil service exams all at once!
· Thorough explanation of concepts
Rather than simply summarizing concepts, it explains the overall analog and digital electronic circuits in an easy and detailed manner tailored to the learner's level.
· Solid examples and practice problems
We provide a wealth of examples based on core theories and practice problems and explanations based on past exam questions to help you solidify your understanding of essential concepts.
· Author's online lecture content
The author offers paid online lectures based on the book's content.
(EduPD: http://www.edupd.com)
Prepare for the communications and electronics qualification exams and the civil service exams all at once!
· Thorough explanation of concepts
Rather than simply summarizing concepts, it explains the overall analog and digital electronic circuits in an easy and detailed manner tailored to the learner's level.
· Solid examples and practice problems
We provide a wealth of examples based on core theories and practice problems and explanations based on past exam questions to help you solidify your understanding of essential concepts.
· Author's online lecture content
The author offers paid online lectures based on the book's content.
(EduPD: http://www.edupd.com)
- You can preview some of the book's contents.
Preview
index
CHAPTER 01 Semiconductor Diode Circuit
1.1 Semiconductors and Current Conduction
1.2 PN junction diode
1.3 Characteristic curve and equivalent model of PN diode
1.4 Diode Wave Shaping Circuit
1.5 Special diode
Practice problems
CHAPTER 02 Power Circuit
2.1 Basic theory of power circuits
2.2 Rectifier circuit
2.3 Smoothing circuit
2.4 Constant voltage (DC stabilization) circuit
Practice problems
CHAPTER 03 Transistor (BJT) Circuit
3.1 Basic theory of BJT
3.2 DC Analysis of BJT (Bias Analysis)
3.3 AC Analysis of BJT (Small Signal Analysis)
Practice problems
CHAPTER 04 Field-Effect Transistor (FET) Circuit
4.1 Basic theory of FET
4.2 DC Analysis of FET (Bias Analysis)
4.3 AC Analysis of FET (Small Signal Analysis)
Practice problems
CHAPTER 05 Frequency characteristics of amplifiers and high-frequency amplifier circuits
5.1 Frequency characteristics of the amplifier
5.2 Low-frequency response of the amplifier
5.3 High-frequency response of the amplifier
5.4 Multistage and Tunable Amplifiers
Practice problems
CHAPTER 06 Feedback Amplifier
6.1 Basic theory of feedback amplifier
6.2 General characteristics of negative feedback amplifiers
6.3 Circuit Analysis of Feedback Amplifier
6.4 Determining the stability of a feedback amplifier
Practice problems
CHAPTER 07 Power Amplifier
7.1 Basic Theory of Power Amplifiers
7.2 Class A power amplifier
7.3 Class B and Class AB Power Amplifiers
7.4 Class C power amplifier
7.5 Class D, Class E, and Class F power amplifiers
Practice problems
CHAPTER 08 Differential Amplifier
8.1 Basic Theory of Differential Amplifiers
8.2 Circuit Analysis of Differential Amplifier
8.3 Active load differential amplifier using current mirror circuit
Practice problems
CHAPTER 09 Operational Amplifiers
9.1 Basic Theory of Operational Amplifiers
9.2 Application Circuits of Operational Amplifiers
Practice problems
CHAPTER 10 Oscillator Circuit
10.1 Basic theory of oscillator circuits
10.2 LC oscillator circuit
10.3 Modified oscillator circuit
10.4 RC oscillator circuit
Practice problems
CHAPTER 11 Modulation and Demodulation Circuits
11.1 Analog Modulation and Demodulation
11.2 Digital Modulation and Demodulation
11.3 Pulse modulation and demodulation
Practice problems
CHAPTER 12 PULSE CIRCUITS
12.1 Basic theory of pulse waveforms
12.2 Non-sinusoidal pulse generation circuit
Practice problems
CHAPTER 13 DIGITAL CIRCUITS
13.1 Basic Theory of Digital Circuits
13.2 Combinational logic circuits
13.3 Sequential logic circuits
13.4 D/A and A/D converter circuits
Practice problems
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1.1 Semiconductors and Current Conduction
1.2 PN junction diode
1.3 Characteristic curve and equivalent model of PN diode
1.4 Diode Wave Shaping Circuit
1.5 Special diode
Practice problems
CHAPTER 02 Power Circuit
2.1 Basic theory of power circuits
2.2 Rectifier circuit
2.3 Smoothing circuit
2.4 Constant voltage (DC stabilization) circuit
Practice problems
CHAPTER 03 Transistor (BJT) Circuit
3.1 Basic theory of BJT
3.2 DC Analysis of BJT (Bias Analysis)
3.3 AC Analysis of BJT (Small Signal Analysis)
Practice problems
CHAPTER 04 Field-Effect Transistor (FET) Circuit
4.1 Basic theory of FET
4.2 DC Analysis of FET (Bias Analysis)
4.3 AC Analysis of FET (Small Signal Analysis)
Practice problems
CHAPTER 05 Frequency characteristics of amplifiers and high-frequency amplifier circuits
5.1 Frequency characteristics of the amplifier
5.2 Low-frequency response of the amplifier
5.3 High-frequency response of the amplifier
5.4 Multistage and Tunable Amplifiers
Practice problems
CHAPTER 06 Feedback Amplifier
6.1 Basic theory of feedback amplifier
6.2 General characteristics of negative feedback amplifiers
6.3 Circuit Analysis of Feedback Amplifier
6.4 Determining the stability of a feedback amplifier
Practice problems
CHAPTER 07 Power Amplifier
7.1 Basic Theory of Power Amplifiers
7.2 Class A power amplifier
7.3 Class B and Class AB Power Amplifiers
7.4 Class C power amplifier
7.5 Class D, Class E, and Class F power amplifiers
Practice problems
CHAPTER 08 Differential Amplifier
8.1 Basic Theory of Differential Amplifiers
8.2 Circuit Analysis of Differential Amplifier
8.3 Active load differential amplifier using current mirror circuit
Practice problems
CHAPTER 09 Operational Amplifiers
9.1 Basic Theory of Operational Amplifiers
9.2 Application Circuits of Operational Amplifiers
Practice problems
CHAPTER 10 Oscillator Circuit
10.1 Basic theory of oscillator circuits
10.2 LC oscillator circuit
10.3 Modified oscillator circuit
10.4 RC oscillator circuit
Practice problems
CHAPTER 11 Modulation and Demodulation Circuits
11.1 Analog Modulation and Demodulation
11.2 Digital Modulation and Demodulation
11.3 Pulse modulation and demodulation
Practice problems
CHAPTER 12 PULSE CIRCUITS
12.1 Basic theory of pulse waveforms
12.2 Non-sinusoidal pulse generation circuit
Practice problems
CHAPTER 13 DIGITAL CIRCUITS
13.1 Basic Theory of Digital Circuits
13.2 Combinational logic circuits
13.3 Sequential logic circuits
13.4 D/A and A/D converter circuits
Practice problems
Search
Publisher's Review
In the second edition, we have supplemented the concept explanations for some insufficient topics and reorganized the learning content to make it more coherent.
As representative examples, we have significantly added practical and in-depth content such as switching (mode) constant voltage circuits, constant current source (current mirror) bias circuits, active loads and CMOS amplifiers, and active filter circuits.
In particular, the practice problems have been updated to reorganize the main concepts of each chapter through problems and to prepare for various exams by adding the latest types of problems and explanations that frequently appear on the exam.
As representative examples, we have significantly added practical and in-depth content such as switching (mode) constant voltage circuits, constant current source (current mirror) bias circuits, active loads and CMOS amplifiers, and active filter circuits.
In particular, the practice problems have been updated to reorganize the main concepts of each chapter through problems and to prepare for various exams by adding the latest types of problems and explanations that frequently appear on the exam.
GOODS SPECIFICS
- Date of issue: November 18, 2024
- Page count, weight, size: 808 pages | 1,596g | 188*257*32mm
- ISBN13: 9791156640455
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