Analog-Digital Converters for Industrial Applications

Introduction to Analog-Digital Converters for Industrial Applications

“Analog-Digital Converters for Industrial Applications” by Frank Ohnhäuser is a comprehensive guide to analog-to-digital converters (ADCs) and their use in industrial applications. The book covers the basics of ADCs, including architecture, resolution, and noise, and then goes on to discuss the specific requirements of industrial applications, such as accuracy, temperature stability, and electromagnetic compatibility (EMC).

Chapter 1 of Analog-Digital Converters for Industrial Applications: Introduction to ADCs

In this chapter, the author provides an overview of ADCs and their types, including successive approximation, delta-sigma, and pipeline ADCs. The author also explains the basic concepts of resolution, linearity, and noise, which are essential to understanding ADC performance.

Chapter 2 of Analog-Digital Converters for Industrial Applications: ADC Architectures

This chapter covers the different ADC architectures, including flash, dual-slope, and SAR ADCs. The author explains the advantages and disadvantages of each architecture and provides examples of their use in different applications.

Chapter 3 of Analog-Digital Converters for Industrial Applications: Sampling and Quantization

Sampling and quantization are crucial to the performance of an ADC, and this chapter provides a detailed explanation of these concepts. The author discusses the Nyquist-Shannon sampling theorem and the different types of quantization errors, including quantization noise and aperture jitter.

Chapter 4 of Analog-Digital Converters for Industrial Applications: Digital Signal Processing

Digital signal processing (DSP) plays an important role in ADCs, and this chapter provides an introduction to the different types of DSP techniques used in ADCs. The author covers digital filtering, decimation, and interpolation, and provides examples of their use in industrial applications.

Chapter 5 of Analog-Digital Converters for Industrial Applications: Accuracy and Linearity

Accuracy and linearity are critical to the performance of an ADC in industrial applications. This chapter provides a detailed explanation of these concepts. The author covers offset and gain errors, as well as the different types of linearity errors. Including integral nonlinearity (INL) and differential nonlinearity (DNL).

Chapter 6: Noise

Noise is a significant issue in ADCs, particularly in industrial applications where high accuracy is required. This chapter covers the different types of noise, including thermal noise, shot noise. And flicker noise, and provides techniques for minimizing noise in ADCs.

Chapter 7: Temperature Stability

Temperature stability is a crucial requirement for ADCs in industrial applications. This chapter provides an in-depth explanation of this concept. The author covers the different types of temperature effects, including thermal drift and hysteresis. And provides techniques for minimizing the effects of temperature on ADC performance.

Chapter 8: Electromagnetic Compatibility

Electromagnetic compatibility (EMC) is another critical requirement for ADCs in industrial applications. This chapter covers the different types of EMC issues, including electromagnetic interference (EMI) and electrostatic discharge (ESD). And provides techniques for minimizing the effects of EMC on ADC performance.

Chapter 9: ADC Testing and Characterization

Testing and characterization are essential to ensuring the performance of an ADC in an industrial application. This chapter covers the different types of ADC testing, including static and dynamic testing, and provides techniques for characterizing ADCs in different applications.

Conclusion:

“Analog-Digital Converters for Industrial Applications” by Frank Ohnhäuser is an excellent resource for anyone interested in understanding the basics of ADCs and their use in industrial applications. The book provides a comprehensive overview of the different types of ADCs. Their architectures, and their performance requirements in industrial applications. The author’s clear and concise writing style makes the book accessible to both students and professionals. Overall, this book is highly recommended for anyone working with ADCs in industrial applications.