Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Develop and Deploy Powerful MSP432 Microcontroller ApplicationsBolster your electronics skills and learn to work with the cutting-edge MSP432 microcontroller using the practical information contained in this comprehensive guide. Programmable Microcontrollers: Applications on the MSP432 LaunchPad clearly explains each concept and features detailed illustrations, real-world examples, and DIY projects. Discover how to configure the MSP432, program custom functions, interface with external hardware, and communicate via WiFi. Ideal for practicing engineers and hobbyists alike, this hands-on guide empowers you to program all microcontrollers by thoroughly understanding the MSP432.Coverage includes: - MSP432 architecture- Code Composer Studio (CCS) - CCS Cloud and Energia- MSP432 programming with C and Assembly- Digital I/O- Exceptions and interrupts- Power management and timing operations- Mixed signal systems- Digital and wireless communication- Flash memory, RAM, and direct memory access- Real-time operating system- Advanced applications
DHT11 is a Humidity and Temperature Sensor, which generates calibrated digital output. DHT11 can be interface with any microcontroller like Arduino, Raspberry Pi, etc. and get instantaneous results. DHT11 is a low cost humidity and temperature sensor which provides high reliability and long term stability. In this project, we will build a small circuit to […]
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Arduino is a microcontroller based prototyping board that runs on small DC power. A Relay is a device that helps microcontrollers (or microcontroller based boards) like Arduino to switch on or off different household appliances like motors, lights, water heaters, television and fans etc. Today, Arduino is being used for a wide range of applications […]
In previous section, we have seen How to Interface LM35 Sensor with Arduino. In this tutorial, we will learn How to make Temperature indicator using LM35 Sensor with an Arduino in Proteus Software. Related posts: How to Install and Download Proteus Software? How To Simulate Arduino Program In Proteus Software? How To Simulate Multiple LED Blinking in Proteus Software?
In this project, we designed an Arduino based Real Time Clock with alarm. A Real Time Clock or RTC is a battery powered clock that measures time even when there is no external power or the microcontroller is reprogrammed. An RTC displays clock and calendar with all timekeeping functions. The battery, which is connected to […]
Palm Arduino Kit: UPDATE: Read about the first journey of Palm Arduino Kit, here! I do travel many times a year, sometime I went with family, took relatives, friends, to places in US, for days, may be for weeks, even for a month, when I traveling aboard to vi…
Here’s our Arduino based “Internet of Things” camera. It’s a simple remote monitoring using the Eye-Fi wireless SD card and Adafruit Data Logging Shield for Arduino. The Eye-Fi card is …
This book does the following: 1- Study different UPS systems, and related subjects such as power electronics, and microcontroller unit. 2- Design and implementation of hardware circuits using microcontroller to get UPS inverter system meets the required performance and do the specified control. 3- Apply classical controllers such as PD, PID, and SMC using…
In our last tutorial, we discussed about the 7-segement Display in detail. In this tutorial, we will learn and see how to use a 4 digit 7 segment display with Arduino. Related post Interfacing 4-Digit 7-Segment Display with PIC Microcontroller Microcontroller 8051 : Interfacing 4-Digit 7-Segment Display Digital Clock with 4-digit 7-Segment Display This types
Description Features Documents At SparkFun we use many Arduinos and we're always looking for the simplest, most stable one. Each board is a bit different and no one board has everything we want, so we decided to make our own version that combines all our favorite features. The SparkFun RedBoard combines the simplicity of the UNO's Optiboot bootloader (which is used in the Pro series), the stability of the FTDI (which we all missed after the Duemilanove was discontinued) and the R3 shield compatibility of the latest Arduino UNO R3. The RedBoard can be programmed over a USB Mini-B cable using the Arduino IDE: Just plug in the board, select "Arduino UNO" from the board menu and you're ready to upload code. RedBoard has all of the hardware peripherals you know and love: 14 Digital I/O pins with 6 PWM pins, 6 Analog Inputs, UART, SPI and external interrupts. We've also broken out the SDA, SCL and IOREF pins that showed up on the UNO R3, so the RedBoard will be compatible with future shields. This version adds an SMD ISP header for use with shields. You can power the RedBoard over USB or through the barrel jack. The on-board power regulator can handle anything from 7 to 15VDC. Check out the related items below for a compatible wall-wart power supply. Not sure which Arduino or Arduino-compatible board is right for you? Check out our Arduino Buying Guide! Get Started With the SparkFun RedBoard Guide ATmega328 microcontroller with Optiboot (UNO) Bootloader USB Programming Facilitated by the Ubiquitous FTDI FT231X Input voltage - 7-15V 0-5V outputs with 3.3V compatible inputs 14 Digital I/O Pins (6 PWM outputs) 6 Analog Inputs ISP Header 32k Flash Memory 16MHz Clock Speed All SMD Construction R3 Shield Compatible Red PCB! Schematic Eagle Files FTDI Drivers How to Install FTDI Drivers Arduino IDE Download Hookup Guide Graphical Datasheet RedBoard vs Uno Comparison GitHub (Design Files) Compare SparkFun RedBoards
Microcontroller Prototypes with Arduino and a 3D Printer Discover a complete treatment of microcomputer programming and application development with Arduino and 3D printersMicrocontroller Prototypes with Arduino and a 3D Printer: Learn, Program, Manufacture delivers a comprehensive guide to learning microcontrollers that's perfectly suited to educators, researchers, and manufacturers. The book provides readers with a seasoned expert's perspective on the process of microcomputer programming and application development. Carefully designed and written example code and explanatory figures accompany the text, helping the reader fully understand and retain the concepts described within.The book focuses on demonstrating how to craft creative and innovative solutions in embedded systems design by providing practical and illustrative methods and examples. An accompanying website includes functioning and tested source code and learning exercises and the book relies on freeware development tools for the creation of firmware and software code, 3D printed enclosures, and debugging. It allows the reader to work with modern sensors and collect sensor data to a host PC for offline analysis. Readers will also benefit from the inclusion of: A thorough introduction to the art of embedded computers, including their interdisciplinarity, TPACK analysis, and the impact of microcontroller technology on the maker industryAn exploration of embedded programming with Arduino, including number representation and special-function codes and C common language referenceA discussion of hardware interfaces with the outside world, including digital pin interface, analog pin interface, UART serial interface, I2C, and SPIA treatment of sensors and data acquisition, including environmental measurements with Arduino Uno, orientation and motion detection with Teensy, gesture recognition with TinyZero, and color sensing with Micro: bitA variety of supplementary resources--including source codes and examples--hosted on an accompanying website to be maintained by the author: www.mikroct.com.Perfect for researchers and undergraduate students in electrical and electronic engineering or computer engineering, Microcontroller Prototypes with Arduino and a 3D Printer: Learn, Program, Manufacture will also earn a place in the libraries of hardware engineers, embedded system designers, system engineers, and electronic engineers.
I obviously do a lot of Steampunk projects, but there are a ton of things out there that I haven't tried yet. So, in an effort to broaden my horizons, I recently taught myself how to use Arduinos, which I plan to incorporate into some of my future Steampunk builds.
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Online work provides real-world applications of digital projects. Higher education students prepare for world outside classes.
DIY Classroom Stoplight (Noise Management Tool): *This Instructable involves good old fashion wiring. No Arduino or fancy microcontrolers to speak of. So if you're not super tech savvy do not fear. You can build this! You may have the best organized classroom space out there, beautiful custom lab…
Arduino Controlled Versatile Timer/controller: This is a nice and simple versatile on/off timer built around atmel microcontroller Atmega 328 chip.As the name suggests, it is very versatile timer with N number of applications you can think of. It can be used to, Switching lights in your ho…
This book equips the readers with a fundamental knowledge in micro-controllers and their applications. Basics of microprocessors and related concepts have been appended to ensure that the reader can do with just some basic knowledge of electronics. The 8051 micro-controller has been analysed in depth and the results, including important topics like the…
Arduino Uno Micro Controller The Arduino Uno is a microcontroller board based on the ATmega328 (datasheet). It has 14 digital input/output pins (of which 6 can be used as PWM outputs). 6 analog inputs, a 16 MHz ceramic resonator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller; simply connect it to a computer with a USB cable or power it with an AC-to-DC adapter or battery to get started. The Uno differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it features the Atmega16U2 (Atmega8U2 up to version R2) programmed as a USB-to-serial converter. Specifications Board Type: Evaluation Platform Contents: Board(s) Core Processor: AVR For Use With/Related Products: ATmega328 Mounting Type: Fixed Platform: Arduino Uno Type: MCU 8-Bit
Today, I am going to share a detailed Embedded System Projects list for Engineering Students. I hope you guys are gonna enjoy ....
Beginning C for Arduino is written for those who have no prior experience with microcontrollers or programming but would like to experiment and learn both. This book introduces you to the C programming language, reinforcing each programming structure with a simple demonstration of how you can use C to control the Arduino family of microcontrollers. Author Jack Purdum uses an engaging style to teach good programming techniques using examples that have been honed during his 25 years of university teaching. Beginning C for Arduino will teach you: The C programming language How to use C to control a microcontroller and related hardware How to extend C by creating your own library routines During the course of the book, you will learn the basics of programming, such as working with data types, making decisions, and writing control loops. You'll then progress onto some of the trickier aspects of C programming, such as using pointers effectively, working with the C preprocessor, and tackling file I/O. Each chapter ends with a series of exercises and review questions to test your knowledge and reinforce what you have learned.
Welcome to craftlab, your exclusive destination for individually designed works of art. craftlab stands for Laboratory by DerDemo! I see myself as a maker through and through! It's not without reason that my motto is "forward thinking". I have been working on everything related to innovative technologies for decades now. Be it microcontrollers, 3D printing, lasers, printing techniques (screen printing/pad printing) and MUCH more. But here we now have coasters made from fine natural slate! Immerse yourself in the world of creativity where you are the director. Our handcrafted coasters are not only functional, but also a unique canvas for your personal touch. Create something unforgettable – be it for weddings, gastronomy or birthdays. With us you decide which motif, which text, which logo or which name is immortalized on your coasters. My laser engraving technology gives your ideas a flawless presence on the natural slate, for a touch of elegance in any setting. Your story, your message, your brand identity – everything is immortalized with attention to detail on high-quality natural slate. My coasters are not only practical companions, but also conversation pieces and unique souvenirs. Make every occasion unforgettable and design your world with craftlab. Craftsmanship, individual, innovative. There is space for your creativity here! Product features: 🌟 High-quality material: The coasters are made of high-quality slate, a natural stone that is not only sturdy but also elegant. 🎨 Customization: Using laser engraving technology, you can personalize your coasters with your own logo, name, text or a unique design. This makes them perfect for special occasions such as weddings, birthdays, corporate events and more. 🎁 Ideal Gift: These personalized slate coasters make great gifts for family, friends or colleagues. You can be sure that you will leave a lasting impression with this unique gift. You can also find current work at https://www.youtube.com/channel/UCfTEcX_0RshEZlM48yKcBNA
Today, I am going to share all the LabView Projects, posted on our blog. These LabView projects are entirely designed by the TEP team and ...
ESP8266 Weather Station With Arduino – #2 Software: This instructable is for the software of my Weater Station Project. Please read it first to understand all explanations. Because of the both MCUs the software concept is based on two parts: The ESP8266 runs on Nodemcu and does the Internet connecti…
In this tutorial we will learn how to add a slider to your web server projects, get its value and save it in a variable that the ESP8266 can use. This project covers building a web server using the ESP8266 NodeMCU board and incorporating a slider to control the brightness of an LED. Related posts:
This book does the following: 1- Study different UPS systems, and related subjects such as power electronics, and microcontroller unit. 2- Design and implementation of hardware circuits using microcontroller to get UPS inverter system meets the required performance and do the specified control. 3- Apply classical controllers such as PD, PID, and SMC using…
Description Documents We've been prototyping for a long time on these awesome little plastic plates but it's time for an upgrade. This version still holds an Arduino and a self-adhesive clear breadboard but we've done away with the plastic clips and now provide screws which give you a more solid and simple connection. Also, because the outside dimensions of the board don't matter anymore, this plate can be used with any board that has the Arduino mounting holes. The Arduino Uno, The Leonardo, FEZ Panda even the Electric Sheep can all be screwed down to the base plate for easy prototyping. You can even mount the board facing either way you like. This prototyping holder includes 2 screws for mounting your favorite dev board. The self-adhesive breadboard that fits this plate can be found in the related items below. Dimensional Drawing
C and C++ Cheat Sheet libraries #include input and output functions #include string related functions #include memory allocation, rand, and other functions #include math functions #include time related functions functions returnType functionName( input1Type input1Name, input2Type input2Name, .... ) { // do something return value; // value
Difficulty in performing daily tasks in the life of the blind people requires necessary intervention by scientific manners to support and help these people through technology which has become a solution for many problems facing the people at the present time. Such kind of help will open horizons for a better quality of life without reliance on others to perform simple tasks inside or outside their homes, thus increasing their confidence in participating actively in the community.Two related but independent systems have been developed in this book: a helmet based system, and a hand based system. The first system is based on ultrasonic sensors and a microcontroller to detect the obstacles around the blind person. The positions of these obstacles are given to the blind person in audio form through a speaker. Thus, the blind person can walk with the help of the designed system and avoid any accidents.The second system consists of a bandage around the wrist of the blind person where a pair of ultrasonic sensors is mounted at the frontal position of the bandage.
In this tutorial we will Learn how to display temperature and humidity readings from a DHT11 Sensor in an SSD1306 OLED display using an ESP8266-NodeMCU with Arduino IDE. The NodeMCU reads temperature and relative humidity values from the DHT11 sensor and prints it on Arduino IDE serial monitor and the SSD1306 OLED display. Related Post:
Custom Arduino MIDI Controller: UPDATE (03-04-2017): You can find an updated version of the code on my GitHub. All things hardware related in this Instructable are still valid, but the code has been updated. Things like TeeOnArdu no longer work with the newer versions of the Ardui…
www.knitic.com by Varvara Guljajeva & Mar Canet http://www.varvarag.info/ ; http://www.mcanet.info/ Knitic is an open source knitting machine, which controls…
Arduino is an open-source hardware plat form based on easy-to-use hardware and software. You can tell your board what to do by sending a set of instructions to the microcontroller on the board. Arduino is an open-source platform used for building hardware related projects. Arduino consists of both a physical programmable circuit board often referred to as a…
Some awesome projects you can do with the Raspberry Pi camera.
Hello friends, today's post is about designing a simple calculator with 8051 Microcontroller. In our previous post, we have seen How to ...
Overview Isn't it coooool to play your favorite song using the BBC micro:bit? Just plug it into this little piano, and enjoy. Features micro: bit edge connector, directly pluggable Buzzer to play music Onboard capacitive touch controller, 13x touch keys through I2C interface 4x RGB LEDs, controlled by only one signal pin Breakout module control pins, micro:bit SPI pins, and some of the GPIO pins, easy expansion Comes with development resources (micro:bit graphical demo/python code/user manual, etc.) Specifications Touch controller: TTP229 LED: WS2812B LED color depth: 16777216 colors Dimension: 85mm x 56mm Operating voltage: 3.3V Pinouts SYMBOL DESCRIPTION VCC Power (3.3V input) GND Ground P0 Buzzer control pin, related to mcro:bit P0 P1 LED control pin, related to mcro:bit P1 SCL Touch keys control pin, I2C clock SDA Touch keys control pin, I2C data Dimensions Development Resources Wiki : www.waveshare.com/wiki/Piano_for_micro_bit
Features:1. STM32F103X minimum system board with OLED interface and user buttons.2. Small system adopts high precision imported high precision crystal.3. Provide schematics and related materials PDF.4. Chip model is STM32F103RCT6.5. 100% and .Specification:Condition: 100% Chip model: STM32F103RCT6Material: PlasticProduct Usage: System boardPackage list:1 * System Board
How to Make an Inexpensive 16 MHz Arduino Oscilloscope Using Excel and Your Computer Screen to Display: Often an electronics hobbyist will design and build something only to find that it doesn't behave the way he or she intended. Sometimes in these situations the problem is related to an electrical signal, but that stuff moves at the speed of light! …
A child's game turns out to be difficult for some programmers to code.
In this tutorial we will learn how to interface a 128×64 GLCD display with ST7920/KS0108 controller for the Arduino, to displaying temperature and relative humidity. Before starting the project, we will first take a little background on Humidity and how to measure humidity with DHT11. Related Post LCD (Liquid Crystal) Display With Arduino Board What
