Embedded System Interfacing Design for the Internet-of-Things (IoT) and Cyber-Physical Systems (CPS)
Auteur : Wolf Marilyn
Embedded System Interfacing: Design for the Internet-of-Things (IoT) and Cyber-Physical Systems (CPS) takes a comprehensive approach to the interface between embedded systems and software. It provides the principles needed to understand how digital and analog interfaces work and how to design new interfaces for specific applications. The presentation is self-contained and practical, with discussions based on real-world components. Design examples are used throughout the book to illustrate important concepts. This book is a complement to the author's Computers as Components, now in its fourth edition, which concentrates on software running on the CPU, while Embedded System Interfacing explains the hardware surrounding the CPU.
Undergraduate students taking an embedded systems design course focusing more on the hardware aspects; senior capstone computing/embedded systems courses
- Provides a comprehensive background in embedded system interfacing techniques
- Includes design examples to illustrate important concepts and serve as the basis for new designs
- Discusses well-known, widely available hardware components and computer-aided design tools
Date de parution : 02-2019
Ouvrage de 237 p.
19x23.3 cm
Thèmes d’Embedded System Interfacing :
Mots-clés :
Active filters; AC-to-DC power supply; ADC; Amplifiers; Analog circuits; Analog/digital boundary; Analog/digital converter; Batteries; BLE; Bluetooth; CMOS; Computing platform; DAC; Data link layer; Device driver; Digital filters; Digital logic; Digital/analog converter; Embedded system; Gain; Hardware/software boundary; Hardware/software codesign; I2C; Interface design methodology; Interfacing; Internet; LED; Logic levels; Maximum output current; Mixed-signal; MOSFET; MOSFET amplifiers; Network layer; Noise; Nyquist rate; Op amp filters; Op amps; Output voltage ripple; Passive filters; Physical layer; Power converter; Power management; Power supply; Power supply voltage; Pulse and timing circuits; RLC filters; Sampling; Signal detectors; Signal generators; Standards; USB; WiFi; Zigbee