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· 분류 : 외국도서 > 기술공학 > 기술공학 > 전자공학 > 회로
· ISBN : 9781138746435
· 쪽수 : 846쪽
· 출판일 : 2017-07-06
목차
PART-I BASIC SYSTEM MODELING AND PROGRAMMING TECHNIQUES
1 VLSI TECHNOLOGY: HISTORY, FEATURES AND FPGA ARCHITECTURE
1.1 Introduction and Preview
1.2 A review of Microelectronics
1.3 CMOS Technology and Gate Configuration
1.4 CMOS Fabrication and Layout
1.5 VLSI Design Flow
1.6 Combinational and Sequential Circuit Design
1.7 Subsystem Design and Layout
1.8 Types of ASCICs and Its Design Flow
1.9 VHDL Requirement and Features
1.10 Laboratory Exercises
2 DIGITAL CIRCUIT DESIGN WITH VHDL
2.1 Introduction and Preview
2.2 Code Design Structures
2.3 Data Types and their Conversions
2.4 Operators and Attributes
2.5 Concurrent Code
2.6 Sequential Code
2.7 Flip Flop and Their Conversions s
2.8 Data Shift Registers
2.9 Multi-frequency Generator
2.10 Laboratory Exercises
3 SIMPLE SYSTEM DESIGN TECHNIQUES
3.1 Introduction and Preview
3.2 Half and Full Adder
3.3 Half and Full Subtractor
3.4 Signed Magnitude Comparator
3.5 Seven Segment Display Interfacing
3.6 Counter Design and Interfacing
3.7 Digital Clock Design and Interfacing
3.8 PWM Signal Generation
3.9 Special System Design Techniques
3.10 Laboratory Exercises
4 ARITHMETIC AND LOGICAL PROGRAMMING
4.1 Introduction and Preview
4.2 Arithmetic Operations: Adders and Subtractors
4.3 Arithmetic Operations: Multipliers
4.4 Arithmetic Operations: Dividers
4.5 Trigonometric Computations Using CORDIC Algorithm
4.6 Multiply-Accumulation Circuit
4.7 Arithmetic and Logical Unit
4.8 ROM Design and Logic Implementations
4.9 RAM Design
4.10 Laboratory Exercises
PART ? II CUSTOM I/O PERIPHERALS INTERFACING
5 I/O BANK PROGRAMMING AND INTERFACING
5.1 Introduction and Preview
5.2 Optical Display Interfacing
5.3 Buzzer Control
5.4 LCDs Interfacing and Programming
5.5 General Purpose Switches Interfacing
5.6 Dual Tone Multi Frequency (DTMF) Decoder
5.7 Optical Sensors Interfacing
5.8 Special Sensors Interfacing
5.9 Wind Speed Sensor Interfacing
5.10 Laboratory Exercises
6 SYSTEM DESIGN WITH FINITE AND ALGORITHMIC STATE MACHINE APPROACHES
6.1 Introduction and Preview
6.2 Finite State Machine (FSM) Design: Moore and Mealy Model
6.3 Code Classifier and Binary to BCD Converters
6.4 Binary Sequence Recognizer
6.5 Vending Machine Controller
6.6 Traffic Light Controller
6.7 Escalator , Dice Game and Model Train Controller Design
6.8 Algorithmic State Machine (ASM) Chart
6.9 ASM Based Digital System Design
6.10 Laboratory Exercises
7 INTERFACING DIGITAL LOGIC TO THE REAL WORLD: SENSORS, A/D AND D/A
7.1 Introduction and Preview
7.2 Basics of Signal Conditioning for Sensor Interfacing
7.3 Principle of Sensors Interfacing and Measurement Techniques
7.4 Universal Asynchronous Receiver-Transmitter (UART) Design
7.5 Multichannel Data Logging
7.6 Bipolar Signal Conditioning and Data Logging
7.7 Encoder/Decoder Interfacing for Remote Control Applications
7.8 PRBS Generator and TDMA
7.9 Signal Generators Design and Interfacing
7.10 Laboratory Exercises
PART ? III HARDWARE ACCELERATED DESIGNS
8 RTC AND INTERFACE PROTOCOL PROGRAMMING
8.1 Introduction and Preview
8.2 Real Time Clock (DS12887) Interface Programming
8.3 I2C Interface Programming
8.4 Two Wire Interface (SHT11 Sensor) Programming
8.5 Serial Peripheral Interface (SCP1000D) Programming
8.6 GSM Interface Programming
8.7 GPS Interface Programming
8.8 PS/2 Interface Programming
8.9 VGA Interface Programming
8.10 Laboratory Exercises
9 REAL-WORLD CONTROL DEVICES INTERFACING
9.1 Introduction and Preview
9.2 Relay, Solenoid Valve, Opto-isolator and DC Motor Interfacing and Control
9.3 Servo and BLDC Motor Interfacing and Control
9.4 Stepper Motor Control
9.5 Liquid/Fuel Level Control
9.6 Voltage and Current Measurement
9.7 Power Electronics Device Interfacing and Control
9.8 Power Electronics Bidirectional Switch Interfacing and Control
9.9 Real-time Process Controller Design
9.10 Laboratory Exercises
10 FLOATING-POINT COMPUTATIONS WITH VHDL AND XILINX SYSTEM GENERATOR (SYS-GEN) TOOLS
10.1 Introduction and Preview
10.2 Representation of Fixed and Floating-Point Binary Numbers
10.3 Floating-Point Arithmetic
10.4 Xilinx System Generator (Sys-Gen) Tools
10.5 Fractional-Point Computation Using Sys-Gen Tools
10.6 System Engine Model Using Xilinx Simulink Block Sets
10.7 MATLAB Code Interfacing with Sys-Gen Tools
10.8 VHDL Code Interfacing with Sys-Gen Tools
10.9 Real-time Verification and Reconfigurable Architecture Design
10.10 Laboratory Exercises
PART ? IV MISCELLANEOUS DESIGN AND APPLICATIONS
11 DIGITAL SIGNAL PROCESSING WITH FPGA
11.1 Introduction and Preview
11.2 Discrete Fourier Transform (DFT)
11.3 Digital Finite Impulse Response (FIR) Filter Design
11.4 Digital Infinite Impulse Response (IIR) Filter Design
11.5 Multirate Signal Processing
11.6 Modulo Adder and Residual Number Arithmetic (RNA) Systems
11.7 Distributed Arithmetic (DA) Based Computations
11.8 Booth Multiplication-Algorithm and Design
11.9 Adaptive Filter/Equalizer Design
11.10 Laboratory Exercises
12 ADVANCED IP BASED SYSTEM DESIGN AND APPLICATIONS
12.1 Introduction and Preview
12.2 FFT Computation using SysGen Design
12.3 FIR Digital Filter Design
12.4 IIR Digital Filter Design
12.5 MAC FIR Filter Using SysGen Design
12.6 CIC Filter Design
12.7 CORDIC Design Using SysGen Tools
12.8 Image Processing using Discrete Wavelet Transform (DWT)
12.9 VHDL Design Debugging Techniques
12.10 Laboratory Exercises
13 CONTEMPORARY DESIGN AND APPLICATIONS
13.1 Introduction and Preview
13.2 DPCM System Design
13.3 Data Encryption System
13.4 Soft Computing Algorithms
13.5 BER Tester Design
13.6 Optical Up/Down Data Link
13.7 Channel Coding Techniques
13.8 Pick and Place Robot Controller
13.9 Audio Codec (AC97) Interface
13.10 Laboratory Exercises
References
Appendix - A
Index
