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MSP430 MCU from entry to mastery of fine resources summary

The MSP430 microcontroller is a very distinctive microcontroller, and its main feature is \"ultra-low power consumption\". It is currently widely used in industries such as smart water meters, smart electric meters, and smart gas meters. In March 2515, the EEWORLD Download Center compiled a series of MSP430 microcontroller data collections, covering classic tutorials, e-books, development examples, simulation, programming applications, video tutorials, and other knowledge of MSP430 microcontrollers. This article is a synthesis of the previous collections, selecting the most popular and most influential materials from them, and compiling them into a collection of resources from \"entry to mastery\".

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MSP430 Microcontroller Basics and Practice--Xie Xinghong: Points it Requires : 1 Type:Application DocumentsUploader:nishisbDate:2013-09-22; Introduction:MSP430 MCU Basics and Practice

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Detailed explanation of MSP430 microcontroller principles and application examples (Beihang University): Points it Requires : 5 Type:Application DocumentsUploader:qwqwqw2088Date:2013-04-08; Introduction:Detailed explanation of MSP430 microcontroller principles and application examples (Beihang University)

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MSP430 MCU Self-study Notes: Points it Requires : 1 Type:Application DocumentsUploader:tiankai001Date:2013-01-20; Introduction:MSP430 MCU Self-study Notes

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MSP430 Chinese User Guide: Points it Requires : 1 Type:Application DocumentsUploader:tiankai001Date:2013-01-12; Introduction:Contents 1 MSP430 Series 1.1 Features and Functions 1.2 Key System Performance 1.3 MSP430 Series Models 2 Architecture Overview 2.1 CPU 2.2 Code Memory 2.3 Data Memory (RAM) 2.4 Operation Control 2.5 Peripheral Modules 2.6 Oscillators, Frequency Multipliers, and Clock Generators 3 System Reset, Interrupts, and Operation Modes 3.1 System Reset and Initialization 3.2 Interrupt System Structure 3.3 Interrupt Processing 3.3.1 Interrupt Control Bits in SFR 3.3.2 External Interrupts 3.4 Operation Modes 3.5 Low Power Modes 3.5.1 Low Power Mode 0 and Mode 1, LPM0 and LPM1 3.5.2 Low Power Mode 2 and Mode 3, LPM2 and LPM3 3.5.3 Low Power Mode 4, LPM4 3.6 Key Points for Low Power Applications 4 Memory Organization 4.1 Data in Memory 4.2 On-Chip ROM Organization 4.2.1 ROM Table Processing 4.2.2 Calculated Branch Jumps and Subroutine Calls 4.3 RAM and Peripheral Module Organization 4.3.1 RAM 4.3.2 Peripheral Modules—Address Location 4.3.3 Peripheral Modules—SFR 5 16-bit CPU 5.1 CPU Registers 5.1.1 Program Counter PC 5.1.2 System Stack Pointer SP 5.1.3 Status Register SR 5.1.4 Constant Generator Registers CG1 and CG2 5.2 Addressing Modes 5.2.1 Register Mode 5.2.2 Indexed Mode 5.2.3 Symbolic Mode 5.2.4 Absolute Mode 5.2.5 Indirect Mode 5.2.6 Indirect Increment Mode 5.2.7 Immediate Mode 5.2.8 Instruction Clock Cycle and Length 5.3 5.3.1 Dual Operand Instructions 5.3.2 Single Operand Instructions 5.3.3 Conditional Jumps 5.3.4 Short Forms of Analog Instructions 5.3.5 Other Instructions 5.4 Instruction Distribution 6 Hardware Multiplier 6.1 Hardware Multiplier Operation 6.2 Hardware Multiplier Registers 6.3 Hardware Multiplier SFR Bits 6.4 Hardware Multiplier Software Limitations 6.4.1 Hardware Multiplier Software Limitations - Addressing Modes 6.4.2 Hardware Multiplier Software Limitations - Interrupt Routines 7 Oscillator and System Clock Generator 7.1 Crystal Oscillator 7.2 Processor Clock Generator 7.3 System Clock Operating Modes 7.4 System Clock Control Registers 7.4.1 Module Registers 7.4.2 SFR Bits Related to the System Clock Generator 7.5 DCO Typical Characteristics 8 Digital I/O Configuration 8.1 General Purpose Ports 8.1.1 P0 Control Register 8.1.2 P0 Schematic 8.1.3 P0 Interrupt Control Function 8.2 General Purpose Ports P1, P2 8.2.1 P1, P2 Control Register 8.2.2 P1, P2 Schematic 8.2.3 P1, P2 Interrupt Control Function 8.3 General Purpose Ports P3, P4 8.3.1 P3, P4 Control Register 8.3.2 P3, P4 Schematic 8.4 LCD Port 8.5 LCD Port--Timer/Port Comparator 9 General Purpose Timer/Port Module 9.1 Timer/Port Module Operation 9.1.1 Timer/Port Counter TPCNT1, 8-Bit Operation 9.1.2 Timer/Port Counter TPCNT2, 8-Bit Operation 9.1.3 Timer/Port Counter, 16-Bit Operation 9.2 Timer/Port Registers 9.3 Timer/Port SFR Bits 9.4 Application of Timer/Port in A/D 9.4.1 Principle of R/D Conversion 9.4.2 Conversion with Resolution Higher Than 8 Bits 10 Timer 10.1 Basic Timer1 10.1.1 BasicTimer1 Register 10.1.2 SFR Bits 10.1.3 BasicTimer1 Operation 10.1.4 BasicTimer1 Operation: LCD Clock Signal f LCD 10.2 8-Bit Interval Timer/Counter 10.2.1 Operation of 8-Bit Timer/Counter 10.2.2 Registers of 8-Bit Timer/Counter 10.2.3 SFRs Related to 8-Bit Timer/Counter 10.2.4 Application of 8-Bit Timer/Counter in UART 10.3 Watchdog Timer 10.3.1 Watchdog Timer Register 10.3.2 Watchdog Timer Interrupt Control Function 10.3.3 Watchdog Timer Operation 10.4 8-bit PWM Timer 10.4.1 Operation 10.4.2 PWM Register 11 Timer_A 11.1 Timer_A Operation 11.1.1 Timer Operation 11.1.2 Capture Mode 11.1.3 Comparator Mode 11.1.4 Output Unit 11.2 Registers of Timer_A 11.2.1 Timer_A Control Register TACTL 11.2.2 Capture/Compare Control Register CCTL 11.2.3 Timer_A Interrupt Vector Register 11.3 Application of Timer_A 11.3.1 Application of Timer_A Up Counting Mode 11.3.2 Application of Timer_A Continuous Mode 11.3.3 Application of Timer_A Up/Down Counting Mode 11.3.4 Application of Timer_A Software Capture 11.3.5 Timer_A Handles Asynchronous Serial Communication Protocol 11.4 Special Cases of Timer_A 11.4.1 CCR0 as Period Register 11.4.2 Start/Stop of Timer Register 11.4.3 Output Unit Unit0 12 USART Peripheral Interface, UART Mode 12.1 Asynchronous Operation 12.1.1 Asynchronous Frame Format 12.1.2 Baud Rate Generator for Asynchronous Communication 12.1.3 Asynchronous Communication Format 12.1.4 Line Idle Multiprocessor Mode 12.1.5 Address Bit Format 12.2 Interrupt and Control Functions 12.2.1 USART Receive Enable 12.2.2 USART Transmit Enable 12.2.3 USART Receive Interrupt Operation 12.2.4 USART Transmit Interrupt Operation 12.3 Control and Status Registers 12.3.1 USART Control Register UCTL 12.3.2 Transmit Control Register UTCTL 12.3.3 Receive Control Register URCTL 12.3.4 Baud rate selection and modulation control register 12.3.5 USART receive data buffer URXBUF 12.3.6 USART transmit data buffer UTXBUF 12.4 UART mode, low power mode application characteristics 12.4.1 UART frame starts receiving operation 12.4.2 UART mode baud rate and clock frequency 12.4.3 Multiprocessor mode to save MSP430 resources 12.5 Baud rate calculation 13 USART peripheral interface, SPI mode 13.1 USART synchronous operation 13.1.1 Master mode in SPI mode, MM=1, SYNC=1 13.1.2 Slave mode in SPI mode, MM=0, SYNC=1 13.2 Interrupt and control functions 13.2.1 USART receive enable 13.2.2 USART transmit enable 13.2.3 USART receive interrupt operation 13.2.4 USART transmit interrupt operation 13.3 Control and status registers 13.3.1 USART control register 13.3.2 Transmit control register UTCTL 13.3.3 Receive control register URCTL 13.3.4 Baud rate selection and modulation control register 13.3.5 USART receive data buffer URXBUF 13.3.6 USART transmit data buffer UTXBUF 14 LCD display driver 14.1 LCD driver basic principle 14.2 LCD controller/driver 14.2.1 LCD controller/driver function 14.2.2 LCD control and mode register 14.2.3 LCD display memory 14.2.4 LCD Operation Software Routine 14.3 LCD Port Function 14.4 Mixed Application Example of LCD and Port Mode 15 A/D Converter 15.1 Overview 15.2 A/D Conversion Operation 15.2.1 A/D Conversion 15.2.2 A/D Interrupt 15.2.3 A/D Range 15.2.4 A/D Current Source 15.2.5 A/D Input Terminal and Multiplexer 15.2.6 A/D Grounding and Noise Reduction 15.2.7 A/D Input and Output Pins 15.3 A/D Control Register 16 Other Modules 16.1 Crystal Oscillator 16.2 Power-On Circuit 16.3 Crystal Oscillator Buffer Output Appendix A Peripheral Module Distribution Appendix B Instruction Group Description Appendix C EPROM Programming

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MSP430 Getting Started Manual: Points it Requires : 1 Type:Application DocumentsUploader:hellopinkgirlsDate:2014-03-05; Introduction:The msp430 entry manual mainly introduces the msp430 peripheral modules, which is very helpful for novices to learn msp430

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MSP430 System Experiment Tutorial: Points it Requires : 1 Type:Application DocumentsUploader:nkyqslDate:2013-09-20; Introduction:　　The power supply voltage of the MSP430 series microcontroller adopts a low voltage of 1.8~3.6V. The power consumption is only 0.1uA in RAM data retention mode, 250pA/MIPS (MIPS: millions of instructions per second) in active mode, and the maximum leakage current of the IO input port is only 50nA. The MSP430 series microcontroller has a unique clock system design, including two different clock systems: the basic clock system and the frequency-locked loop (FLL and FLL+) clock system or the DCO digital oscillator clock system. The clock system generates the clocks required by the CPU and each functional module, and these clocks can be turned on or off under the control of instructions, thereby realizing the control of overall power consumption. Due to the different functional modules used when the system is running, that is, different working modes are used, the power consumption of the chip is significantly different. There are a total of 10 active modes (AM) and 5 low power modes (LPM0~LPM4) in the system. In addition, the MSP430 series microcontroller uses vector interrupts, supports more than ten interrupt sources, and can be nested arbitrarily. It only takes 6us to wake up the CPU using an interrupt request. Through reasonable programming, it can not only reduce system power consumption but also respond quickly to external event requests.

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MSP430 Getting Started and FAQs: Points it Requires : 1 Type:Application DocumentsUploader:chen8710Date:2013-03-23; Introduction:Getting Started with MSP430 and Frequently Asked Questions Getting Started with MSP430 and Frequently Asked Questions

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MSP430 Learning Tips: Points it Requires : 1 Type:Application DocumentsUploader:adminDate:2013-05-02; Introduction:MSP430 Learning Heart SutraMSP430 Learning Heart Sutra

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MSP430 Beginner\'s Study Notes: Points it Requires : 1 Type:Application DocumentsUploader:john_wangDate:2013-05-02; Introduction:MSP430 Beginner\'s Study Notes

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Launchpad pocket experiment platform (instruction manual).pdf: Points it Requires : 1 Type:Technical DocumentationUploader:qinkaiabcDate:2013-12-04; Introduction:Since TI launched the ultra-low power MSP430 microcontroller, MSP430 has been welcomed by engineers in the industry for its superior performance, rich peripherals, and easy-to-use features. The emergence of the ultra-high cost-effective Value Line series has made MSP430 even more cost-effective than other microcontrollers. TI China University Program has been committed to promoting TI\'s advanced technology and high-performance devices to colleges and universities. In recent years, it has increased investment in microcontrollers and analog university programs, and strengthened cooperation with universities in related teaching reforms, student innovation and competitions. In 2012, TI China University Program began to cooperate with universities across the country to establish pocket laboratories based on MSP430G2 Launchpad, so that students\' introductory learning of microcontrollers and circuits is no longer limited to the laboratory, and \"one person, one board, learning at any time\" is achieved. This concept is also welcomed and praised by teachers and students. In the process of practice, since the G2 Launchpad has few hardware resources, and the MSP430G2553 has a rich set of integrated peripherals (ADC, Timer, Comparator, Touch Key, SPI, I2C, UART, etc.), in order to learn every peripheral, teachers and students invested a lot of energy and time to develop corresponding peripheral modules to fully learn the MSP430G2553. Among them, Teachers Fu Qiang and Yang Yan from Qingdao University have accumulated a lot of experience in the process of conducting pocket laboratory teaching and developed a series of peripheral modules. In order to promote their successful cases to more brother colleges in the simplest and most convenient way, TI China University Plan and the two teachers jointly designed and developed a set of G2 full-function mini expansion boards as a part of the TI MCU ecosystem: on a PCB of the same size as the Launchpad, a variety of TI analog and digital devices are integrated to provide experiments combining sound, light and electricity, integrating learning and fun. This set of experimental boards and supporting materials inherits the concept of pocket labs on the one hand - all experiments can be completed outside the lab, and on the other hand, perfectly combines the microcontroller and analog devices. Through this mini expansion board, you can not only learn all the peripherals of MSP430, but also learn basic analog knowledge and system design methods, which can be said to kill two birds with one stone. In order to facilitate everyone\'s self-study, teachers Fu Qiang and Yang Yan have made great efforts and efforts. After a year, they even sacrificed the rest time of the Spring Festival to carefully prepare supporting learning materials for everyone, including this 480-page study guide (especially recommend the simplified and approachable language in the book, which is definitely a good helper to help everyone understand MSP430 and its peripheral circuits), PPT, reference routines and experimental teaching videos. These materials will be attached to the CD and on the TI China University Program website (http://www.deyisupport.com/universityprogram/default.aspx) for teachers and students to download and study. Here, I would like to express my sincere gratitude to teachers Fu Qiang, Yang Yan and their students for their hard work and efforts! I hope that everyone can gain a lot from their studies and also enjoy the fun. This is the unanimous pursuit of the TI University Program and the cooperating teachers!

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Detailed description of uCOS transplantation function in MSP430: Points it Requires : 1 Type:Application DocumentsUploader:老夫子Date:2013-05-19; Introduction:Detailed description of uCOS transplantation function in MSP430

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MSP430-uCOS-II Porting Manual: Points it Requires : 1 Type:Application DocumentsUploader:sunyzzDate:2013-05-08; Introduction:MSP430F5438-uCOS-II Porting Manual

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MSP430 MCU Video Tutorial 1: Points it Requires : 1 Type:CourseUploader:tiankai001Date:2012-12-27; Introduction:MSP430 MCU Video Tutorial 1. Lecture 1_Overview 2.0 Lecture 2_Reset, Interrupt and IO 2.1 Lecture 2_Reset, Interrupt and IO (Supplement) .3. Lecture 3_Asynchronous Communication Interface 1 4.0 Lecture 4_Asynchronous Communication Interface 2 4.1 Lecture 4_Asynchronous Communication Interface (Supplement) 5. Lecture 5_Timer 6. Lecture 6_FLASH 7. Lecture 7_ADC12 8. Lecture 1_Control Circuit and Flowing Light 9. Lecture 2_Keyboard 10. Lecture 3_Buzzer and Digital Tube 11. Lecture 4_1602 LCD and Level Conversion 12. Lecture 5_EEPROM and 18B20 and DS1302 13. Lecture 6_RS232 and RS485

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Proteus\'s MSP430 simulation - learn it in one go.: Points it Requires : 1 Type:Application DocumentsUploader:tiankai001Date:2014-01-25; Introduction:Proteus\'s MSP430 simulation - learn it in one go.

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14 examples of Proteus simulation of MSP430 (with source code): Points it Requires : 1 Type:Application DocumentsUploader:电子制作Date:2013-09-28; Introduction:14 examples of Proteus simulation of MSP430 (with source code)

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TI MSP430 FAQ Collection: Points it Requires : 1 Type:Application DocumentsUploader:sosoDate:2014-09-04; Introduction:TI officially launched the product FAQ series, which is a collection of TI MSP430 frequently asked questions (FAQ) to help you find answers to MSP430 questions faster and more conveniently.

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MSP430 series microcontroller data 7 volumes: Points it Requires : 1 Type:Application DocumentsUploader:tywDate:2013-10-17; Introduction:The 7 volumes of MSP430 series microcontroller materials include: \"MSP430 series microcontroller interface technology and system design examples\", \"MSP430 series microcontroller C language program design and development\", \"MSP430 series ultra-low power 16-bit microcontroller principles and applications\", \"MSP430 series Flash ultra-low power 16-bit microcontrollers\", \"MSP430X13X, MSP430X14X mixed-signal microcontrollers\", \"MSP430 microcontroller application system development typical examples CD-ROM with books\", \"MSP430 series microcontroller practical C language program design CD-ROM with books\"

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