- Free PDF tutorial(more than 22 lessons) and clear listing in a nice package
- The most economical kit based on Arduino platform to starting programming for those beginners who are interested.
- Lcd1602 module with pin header (not need to be soldered by yourself)
- This is the upgraded starter kits with power supply module, 9V battery with dc
- High-quality kite with UNO R3. 100% compatible with Arduino UNO R3, MEGA 2560 R3, NANO.
Compatibility with Official Arduino IDE, Software, Sensors and Codes
Arduino is an open-source platform used for building electronics projects. Arduino consists of both a physical programmable circuit board (often referred to as a microcontroller) and a piece of software, or IDE (Integrated Development Environment) that runs on your computer, used to write and upload computer code to the physical board.
For the reason of open source, the manufacture of Arduino boards and software distribution by anyone is permitted. Arduino boards are available commercially in preassembled form, or as do-it-yourself (DIY) kits.
Elegoo is one of the manufacturers on the market, whose clone products are compatible with the official Arduino microcontroller boards, they can use the official Arduino software, sensors, and codes.
Learn Electronics and Programming with ELEGOO
The UNO boards can be used as the brains behind almost any electronics project. UNO can interact with buttons, LEDs, motors, speakers, GPS units, cameras, the internet, and even your smart-phone or your TV! By connecting the UNO board with a personal computer via a USB cable and uploading programs to the board, users can create digital devices and interactive objects that can sense and control objects in the physical and digital world like robots or even honest fortune-telling machines.
For this Elegoo Super Starter Kit, we provide a 24-lesson tutorial, introducing the basic setting of the software IDE, the working principles of the sensors and the simple program to enable the UNO board to control the sensors.
This Kit is suitable for 10-year-old and up. Younger kids should be under supervision and guidance of adults.
Multi Projects
74HC595 and LEDs74HC595 is a Serial to Parallel Converter which has eight outputs (perfect) and three inputs that you use to feed data into it a bit at a time. This chip makes it a little slower to drive the LEDs (you can only change the LEDs about 500,000 times a second instead of 8,000,000 a second) but it's still really fast, way faster than humans can detect, so it's worth it. 74HC595 shift register is a type of chip that holds what can be thought of as eight memory locations, each of which can either be a 1 or a 0. To set each of these values on or off, we feed in the data using the 'Data' and 'Clock' pins of the chip. | 4 digit 7 segment display7 segment displays consist of 7 LEDs, called segments, arranged in the shape of an “8”. Most 7-segment displays actually have 8 segments, with a dot on the right side of the digit that serves as a decimal point. When using a 4-digit 7-segment display, the common anode or common cathode pin is used to control which digit is displayed. Even though there is only one digit working, the principle of Persistence of Vision enables you to see all numbers displayed because each the scanning speed is so fast that you hardly notice the intervals. By building the circuit and editing the program, users can make a simple display showing certain numbers, or more complexly, a count-up timer or an electrical rolling dice. | Stepper MotorStepper motors are DC motors that move in discrete steps. They have multiple coils that are organized in groups called "phases". By energizing each phase in sequence, the motor will rotate, one step at a time. With computer-controlled stepping, you can achieve very precise positioning and/or speed control. For this reason, stepper motors are the motor of choice for many precision motion control applications. the simplest way of interfacing a unipolar stepper motor to the UNO board is to use a breakout for ULN2003A transistor array chip, applying a voltage to each of the coils in a specific sequence. |
