Download Analog and Digital Circuits for Electronic Control System Applications By Jerry Luecke

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Introduction

Analog system designers many times in the past avoided the use of electronics for their system functions because electronic circuits could not provide the dynamic range of the signal without severe nonlinearity, or because the circuits drifted or became unstable with temperature, or because the computations using analog signals were quite inaccurate. As a result, the design shifted to other disciplines, for example, mechanical. Today, young engineers requested by their superiors to design an analog control system, have an entirely new technique available to them to help them design the system and overcome the “old” problems.

The design technique is this: sense the analog signals and convert them to electrical signals; condition the signals so they are in a range of inputs to assure accurate processing; convert the analog signals to digital; make the necessary computations using the very high-speed IC digital processors available with their high accuracy; convert the digital signals back to analog signals; and output the analog signals to perform the task at hand. Analog and Digital Circuits for Control System Applications: Using the TI MSP430 Microcontroller explains the functions that are in the signal chain, and explains how to design electronic circuits to perform the functions. Included in this book is a chapter on the different types of sensors and their outputs.

 There is a chapter on the different techniques of conditioning the sensor signals, especially amplifiers and op amps. There are techniques and circuits for analog-to-digital and digital-to-analog conversions, and an explanation of what a digital processor is and how it works. There is a chapter on data transmissions and one on power control. And to solidify the learning and applications, there is a chapter that explains assembly-language programming, and also a chapter where the reader actually builds a working project. These two chapters required choosing a digital processor. The TI MSP430 microcontroller was chosen because of its design, and because it is readily available, it is well s

Table of Contents

Chapter 1: Signal Paths from Analog to Digital
Chapter 2: Signal Paths from Digital to Analog
Chapter 3: Sensors
Chapter 4: Signal Conditioning
Chapter 5: Analog-to-Digital and Digital-to-Analog Conversions
Chapter 6: Digital System Processing
Chapter 7: Examples of Assembly-Language Programming
Chapter 8: Data Communications
Chapter 9: System Power and Control
Chapter 10: A Micro controller Application