temporarily out of stock
Analogue Interfacing to Microprocessors 2E: Real World Design
Analog Interfacing to Embedded Microprocessors addresses the technologies and methods used in interfacing analog devices to microprocessors, providing in-depth coverage of practical control applications, op amp examples, and much more. A companion to the author's popular Embedded Microprocessor Systems: Real World Design, this new embedded systems book focuses on measurement and control of analog quantities in embedded systems that are required to interface to the real world.
At a time when modern electronic systems are increasingly digital, a comprehensive source on interfacing the real world to microprocessors should prove invaluable to embedded systems engineers, students, technicians, and hobbyists. Anyone involved in connecting the analog environment to their digital machines, or troubleshooting such connections will find this book especially useful. Stuart Ball is also the author of Debugging Embedded Microprocessor Systems, both published by Newnes. Additionally, Stuart has written articles for periodicals such as Circuit Cellar INK, Byte, and Modern Electronics.
System Design (Dynamic Range, Calibration,Bandwidth, Processor Throughput, Avoiding Excess Speed, Sample Rate and Aliasing), Digital to Analog Converters (Analog to Digital Converters, Types of ADCs, Sample and Hold, Real Parts, Microprocessor Interfacing, Serial Interfaces, Multichannel ADCs, Internal Microcontroller ADCs, Codecs, Interrupt Rate, Design Checklist), Sensors (Temperature Sensors, Optical Sensors, CCDs, Magnetic Sensors, Motion/Acceleration Sensors, Strain Gauge), Time-Based Measurements, Output Control Methods (Open Loop Control, Negative Feedback and Control, Microprocessor-based Systems, Motor Control, Measuring and Analyzing Control Loops, Things to Remember in Control Design) Solenoids, Relays, and Other Analog Outputs (Solenoids, Heaters, Coolers, Fans, LEDs), Motors, EMI, High Precision Applications, Standard Interfaces (IEE 1451.2, 4-20 ma Current Loop), Appendix A Opamp Basics, Appendix B PWM