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Simplified design of data converters /
Simplified Design of Data Converters shows how to design and experiment with data converters, both analog-to-digital and digital to analog. The design approach here is the same one used in all of John Lenk's best-selling books on simplified and practical design. Throughout the book, design prob...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Boston :
Newnes,
©1997.
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| Colección: | EDN series for design engineers.
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| Temas: | |
| Acceso en línea: | Texto completo (Requiere registro previo con correo institucional) |
Tabla de Contenidos:
- Front Cover; Simplified Design of Data Converters; Copyright Page; Dedication; Table of Contents; Preface; Acknowledgments; Chapter 1. Data Converter Basics; 1.1 Basic Data Conversion Techniques; 1.2 Typical DAC IC; 1.3 Typical ADC IC; 1.4 Basic ADC/IDAC Testing and Troubleshooting; Chapter 2. Data-Converter Terms and Design Characteristics; 2.1 Resolution and Accuracy; 2.2 Linearity; 2.3 Data Converter Errors; 2.4 Differential Nonlinearity; 2.5 Monotonicity; 2.6 Settling Time and Slew Rate; 2.7 Conversion Rate; 2.8 Temperature Coefficient and Long-Term Drift; 2.9 Overshoot and Glitches.
- 2.10 Power Supply Rejection2.11 Input Impedance and Output Drive; 2.12 Clock Rate; 2.13 Data-Converter Codes; Chapter 3. Practical Design Considerations; 3.1 Digital Control Signals; 3.2 Voltage References; 3.3 Multichannel Conversion; 3.4 Track and Hold; 3.5 Interfacing; 3.6 Conversion Speed; 3.7 AC Signal Processing; 3.8 Noise Problems; 3.9 Practical Layout; Chapter 4. Simplified Design with a Typical ADC; 4.1 General Description of ADC; 4.2 Data-Converter Operation; 4.3 Serial Interface Considerations; 4.4 Dynamic Performance Characteristics and Testing; 4.5 Application Data.
- Chapter 5. Simplified Design with a Flash ADC5.1 General Description of ADC; 5.2 Data-Converter Operation; 5.3 Power Requirements; 5.4 Reference Voltage Requirements; 5.5 Output Coding Control; 5.6 Initiating a Conversion; 5.7 Analog Inputs; 5.8 Digital Outputs; 5.9 Calibration; 5.10 Typical Video Interface; Chapter 6. Simplified Design wlith Serial-Interface DAC; 6.1 General Description of DAC; 6.2 Data-Converter Operation; 6.3 Reference Inputs versus DAC Output Range; 6.4 Output Buffer Amplifiers (DAC A/lDAC B); 6.5 Unbuffered Output (DAC C); 6.6 Shutdown Mode; 6.7 Reset.
- 6.8 Serial Interface6.9 Data Format and Control Codes; 6.10 Digital Inputs; 6.11 Digital Output; 6.12 Microprocessor Interfacing; 6.13 Applications Data; Chapter 7. Simplified Design with Parallel-Input DAC; 7.1 General Description of DAC; 7.2 Data-Converter Operation; 7.3 R-2R Ladder; 7.4 Internal Reference; 7.5 Internal Reference Noise; 7.6 Output Buffer-Amplifier; 7.7 External Reference; 7.8 Reset Functions; 7.9 Shutdown Mode; 7.10 Parallel Logic Interface; 7.11 4-Bit Microprocessor Interface; 7.12 8-Bit or 16-Bit Microprocessor Interface; 7.13 Unipolar Operation; 7.14 Bipolar Operation.
- 7.15 Four-Quadrant Multiplication7.16 Single-Supply Problems; 7.17 Bypasses, Grounds, and PC-Board Layout; 7.18 Digital and Analog Feedthrough; Chapter 8. Simplified Design Approaches; 8.1 References for ADCs and DACs; 8.2 Unusual ADC Applications; 8.3 Data Acquisition with ADCs; 8.4 Circuit Applications with Multiplying DACs; 8.5 Some Classic CMOS DAC Applications; Chapter 9. Low-Power Data-Acquisition System; 9.1 General Description of ADC; 9.2 Data-Converter Operation; 9.3 Applications Information; Chapter 10. Single-Chip Digital Multimeter; 10.1 System Considerations.