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Microcontroller programming and interfacing with Texas instruments MSP430FR2433 and MSP430FR5994.

By: Barrett, Steven F. (Steven Frank) 1957- [author.].
Contributor(s): Pack, Daniel J [author.].
Material type: materialTypeLabelBookSeries: Synthesis digital library of engineering and computer science: ; Synthesis lectures on digital circuits and systems: #56.Publisher: [San Rafael, California] : Morgan & Claypool, [2019]Edition: Second edition.Description: 1 PDF (xxv, 281-533 pages) : illustrations (some color).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781681736266.Subject(s): Texas Instruments MSP430 series microprocessors | Microcontrollers | MSP430 microcontroller | microcontroller interfacing | embedded systems design | Texas InstrumentsDDC classification: 621.3916 Online resources: Abstract with links to full text | Abstract with links to resource Also available in print.
Contents:
7. Timer systems -- 7.1. Introduction -- 7.2. Motivation : real-time location systems (RTLS) -- 7.3. Time-related signal parameters -- 7.4. Overview of MSP430 timer features -- 7.5. Energia-related time functions -- 7.6. Watchdog timer -- 7.7. Real-time clock -- 7.8. Real-time clock-MSP430FR2433 -- 7.9. Input capture and output compare features -- 7.10. MSP430 timers : Timer_A and Timer_B -- 7.11. Laboratory exercise : generation of varying pulse width modulated signals to control DC motors -- 7.12. Summary -- 7.13. References and further reading -- 7.14. Chapter problems
8. Resets and interrupts -- 8.1. Motivation -- 8.2. Background -- 8.3. MSP430 resets/interrupts overview -- 8.4. MSP430 resets -- 8.5. Interrupts -- 8.6. Laboratory exercise -- 8.7. References and further reading -- 8.8. Chapter problems
9. Analog peripherals -- 9.1. Analog-to-digital conversion process -- 9.2. digital-to-analog converter process -- 9.3. MSP430 ADC systems -- 9.4. MSP430FR5994 analog-to-digital converter -- 9.5. MSP430FR5994 comparator -- 9.6. Advanced analog peripherals -- 9.7. Laboratory exercise : smart home sensor -- 9.8. References and further reading -- 9.9. Chapter problems
10. Communication systems -- 10.1. Background -- 10.2. Serial communication concepts -- 10.3. MSP430 UART -- 10.4. Code examples -- 10.5. Serial peripheral interface-SPI -- 10.6. Inter-integrated communication--I2C module -- 10.7. Laboratory exercise : UART and SPI communications -- 10.8. Summary -- 10.9. References and further reading -- 10.10. chapter problems
11. MSP430 system integrity -- 11.1. Overview -- 11.2. Electromagnetic interference -- 11.3. Cyclic redundancy check -- 11.4. AES256 accelerator module -- 11.5. Laboratory exercise : AES256 -- 11.6. Summary -- 11.7. References and further reading -- 11.8. Chapter problems
12. System-level design -- 12.1. Overview -- 12.2. What is an embedded system? -- 12.3. Embedded system design process -- 12.4. MSP430FR5994 : weather station -- 12.5. Submersible robot -- 12.6. Mountain maze navigating robot -- 12.7. Summary -- 12.8. References and further reading -- 12.9. Chapter exercises.
Summary: This book provides a thorough introduction to the Texas Instruments MSP430(Tm) microcontroller. The MSP430 is a 16-bit reduced instruction set (RISC) processor that features ultra-low power consumption and integrated digital and analog hardware. Variants of the MSP430 microcontroller have been in production since 1993. This provides for a host of MSP430 products including evaluation boards, compilers, software examples, and documentation. A thorough introduction to the MSP430 line of microcontrollers, programming techniques, and interface concepts are provided along with considerable tutorial information with many illustrated examples. Each chapter provides laboratory exercises to apply what has been presented in the chapter. The book is intended for an upper level undergraduate course in microcontrollers or mechatronics but may also be used as a reference for capstone design projects. Also, practicing engineers already familiar with another microcontroller, who require a quick tutorial on the microcontroller, will find this book very useful. This second edition introduces the MSP-EXP430FR5994 and the MSP430-EXP430FR2433 LaunchPads. Both LaunchPads are equipped with a variety of peripherals and Ferroelectric Random Access Memory (FRAM). FRAM is a nonvolatile, low-power memory with functionality similar to flash memory.
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Item type Current location Call number Status Date due Barcode Item holds
E books E books PK Kelkar Library, IIT Kanpur
Available EBKE930
Total holds: 0

Mode of access: World Wide Web.

System requirements: Adobe Acrobat Reader.

Part of: Synthesis digital library of engineering and computer science.

Includes bibliographical references and index.

7. Timer systems -- 7.1. Introduction -- 7.2. Motivation : real-time location systems (RTLS) -- 7.3. Time-related signal parameters -- 7.4. Overview of MSP430 timer features -- 7.5. Energia-related time functions -- 7.6. Watchdog timer -- 7.7. Real-time clock -- 7.8. Real-time clock-MSP430FR2433 -- 7.9. Input capture and output compare features -- 7.10. MSP430 timers : Timer_A and Timer_B -- 7.11. Laboratory exercise : generation of varying pulse width modulated signals to control DC motors -- 7.12. Summary -- 7.13. References and further reading -- 7.14. Chapter problems

8. Resets and interrupts -- 8.1. Motivation -- 8.2. Background -- 8.3. MSP430 resets/interrupts overview -- 8.4. MSP430 resets -- 8.5. Interrupts -- 8.6. Laboratory exercise -- 8.7. References and further reading -- 8.8. Chapter problems

9. Analog peripherals -- 9.1. Analog-to-digital conversion process -- 9.2. digital-to-analog converter process -- 9.3. MSP430 ADC systems -- 9.4. MSP430FR5994 analog-to-digital converter -- 9.5. MSP430FR5994 comparator -- 9.6. Advanced analog peripherals -- 9.7. Laboratory exercise : smart home sensor -- 9.8. References and further reading -- 9.9. Chapter problems

10. Communication systems -- 10.1. Background -- 10.2. Serial communication concepts -- 10.3. MSP430 UART -- 10.4. Code examples -- 10.5. Serial peripheral interface-SPI -- 10.6. Inter-integrated communication--I2C module -- 10.7. Laboratory exercise : UART and SPI communications -- 10.8. Summary -- 10.9. References and further reading -- 10.10. chapter problems

11. MSP430 system integrity -- 11.1. Overview -- 11.2. Electromagnetic interference -- 11.3. Cyclic redundancy check -- 11.4. AES256 accelerator module -- 11.5. Laboratory exercise : AES256 -- 11.6. Summary -- 11.7. References and further reading -- 11.8. Chapter problems

12. System-level design -- 12.1. Overview -- 12.2. What is an embedded system? -- 12.3. Embedded system design process -- 12.4. MSP430FR5994 : weather station -- 12.5. Submersible robot -- 12.6. Mountain maze navigating robot -- 12.7. Summary -- 12.8. References and further reading -- 12.9. Chapter exercises.

Abstract freely available; full-text restricted to subscribers or individual document purchasers.

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This book provides a thorough introduction to the Texas Instruments MSP430(Tm) microcontroller. The MSP430 is a 16-bit reduced instruction set (RISC) processor that features ultra-low power consumption and integrated digital and analog hardware. Variants of the MSP430 microcontroller have been in production since 1993. This provides for a host of MSP430 products including evaluation boards, compilers, software examples, and documentation. A thorough introduction to the MSP430 line of microcontrollers, programming techniques, and interface concepts are provided along with considerable tutorial information with many illustrated examples. Each chapter provides laboratory exercises to apply what has been presented in the chapter. The book is intended for an upper level undergraduate course in microcontrollers or mechatronics but may also be used as a reference for capstone design projects. Also, practicing engineers already familiar with another microcontroller, who require a quick tutorial on the microcontroller, will find this book very useful. This second edition introduces the MSP-EXP430FR5994 and the MSP430-EXP430FR2433 LaunchPads. Both LaunchPads are equipped with a variety of peripherals and Ferroelectric Random Access Memory (FRAM). FRAM is a nonvolatile, low-power memory with functionality similar to flash memory.

Also available in print.

Title from PDF title page (viewed on September 27, 2019).

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