Arduino boards

•     High-performance, Low-power AVR® 8-Bit Microcontroller
•     Advanced RISC Architecture
•     High Endurance Non-volatile Memory Segments
•     Atmel QTouch® Library Support
•     Power-on Reset and Programmable Brown-out Detection
•     Internal Calibrated RC Oscillator
•     External and Internal Interrupt Sources
•     Idle, ADC Noise Reduction, Power-save, Power-down and Standby Sleep Modes
•     2.7 to 5.5V, 0 to 16MHz Operating Voltage
•     3.6mA Active, 1.0mA Idle Mode and 0.5µA Power-down Mode Power Consumption

Arduino is an open-source electronics platform based on easy-to-use hardware and software. Arduino boards are able to read inputs - light on a sensor, a finger on a button, or a Twitter message - and turn it into an output - activating a motor, turning on an LED, publishing something online.

Find more info on Arduino at https://www.arduino.cc/en/guide/introduction

Description:

 Microcontroller ATmega328
Operating Voltage 5V
Input Voltage (recommended) 7-12V
Input Voltage (limits) 6-20V
Digital I/O Pins 14 (of which 6 provide PWM output)
Analog Input Pins 6
DC Current per I/O Pin 40 mA
DC Current for 3.3V Pin 50 mA
Flash Memory 32 KB (ATmega328) of which 0.5 KB used by bootloader
SRAM 2 KB (ATmega328)
EEPROM 1 KB (ATmega328)
Clock Speed 16 MHz
Length 68.6 mm
Width 53.4 mm

Package includes:

1 x UNO R3
1 x USB cable

This is the LilyPad main board consisting of an ATmega328 using 5V DC power.

The latest version of the LilyPad supports automatic reset for even easier programming.

The back side of the LilyPad is now completely flat! We now use a surface mount programming connector to keep the header from poking through.



This version of the LilyPad now uses the new ATmega328 at 8MHz. 0016 supports the Pro Mini 328/8MHz/16MHZ. Use this setting when using this new LilyPad 328.

LilyPad is a wearable e-textile technology developed by Leah Buechley and cooperatively designed by Leah and SparkFun. Each LilyPad was creatively designed to have large connecting pads to allow them to be sewn into clothing.

Various input, output, power, and sensor boards are available. They're even washable!

 

Package Includes:
1 x 328 Main Board

Features:

ESP8266 connect to RX3/TX3 of ATmega2560

Documents

Dimensional drawing
Pinout
Schematic
Drivers

Type: No battery version

Features:

This is a upgraded version UNO R3 starter kit with more components
You'll learn through building several creative projects.
Starting from the basics of electronics to more complex projects, the kit will help you control the physical world with sensors and actuators.

Package includes:

1 x Arduino compatible UNO R3 development board
1 x USB cable
1 x Prototype extension board
1 x Mini breadboard
1 x 5V stepper motor
1 x 2003 stepper motor driver board
10 x Red LED
10 x Green LED
10 x Blue LED
2 x Vibration Sensors
1 x Flame sensor
1 x LM35 temperature sensor
1 x Infrared receiver (no battery included)
3 x Photoresistors
4 x Key caps
4 x Key switches
1 x Adjustable potentiometer
1 x Passive buzzer (piezo buzzer)
1 x Active buzzer (tone generator)
1 x Jumper cap
1 x Large breadboard
1 x Remote Control
1 x 1602 screen
1 x 9G servo
1 x 10p DuPont jumpers
30 x Breadboard jumpers(approximately)
1 x 220 ohm resistor
1 x 8*8 dot matrix
1 x One digit eight segment tube
1 x Four digit eight segment tube
1 x IC 74HC595
1 x Battery Holder
1 x 1K resistor plug
1 x 10K resistor plug
1 x 2.54mm 40pin pin header

We found some beginners guides that will help show you what the kit can do and get you started with your own tinkering.

Makerspace.com - https://www.makerspaces.com/simple-arduino-projects-beginners/
Starter kit for Arduino - https://www.elecrow.com/download/Starter%20Kit%20for%20Arduino(user%20manual).pdf

• - This is an open-source code base and Simple I/O platform, and with the use of a similar java, C language development environment. You can quickly use the language with Flash or Processing ... and other software to make interactive projects. Can be used to complete the development of electronic projects such as Switches, Sensors or other controllers, LED, stepper motors or other output devices. It can also operate independently as a software platform that can communicate with.
• - 4-way LED indicator
• - DS18B20 temperature sensor interface that can be used to measure temperature, this board does not include the DS18B20 sensor
• - LM35 temperature sensor interface that can be used to measure temperature of the experiment, this board does not include the LM35 sensor
• - 3296 precision adjustable potentiometer, analog input port (can be used for controlling LED brightness, steering angle , digital voltage, etc.)
• - integrated infrared receiver that can fit any infrared remote control experiments , this board does not include the receiver
• - four digital 7 segment display (using 74HC595 driver provincial IO learning SPI), for digital display experiments (can display temperature, voltage, counter value, etc.).
• - three separate buttons.
• - buzzer
• - Bluetooth, wireless interfaces, voice module , voice recognition module can be used for wireless communication experiment.
• - servo interface, easy to drive servos.
• - infrared detection interface

Overview

Motor Control Shield is capable of driving 4 DC motors or 2 stepping motors at one time.

Features

• Configurable motor power supply via onboard jumper
  • when using 5V motor power supply : drives four 5V DC motors at one time
  • when using adjustable motor power supply : drives two 1.25V-6.45V DC motors at one time (9V external power supply is required)
• Onboard dual H-bridge driver L293D x 2
  • each L293D can drive 2 DC motors or 1 stepping motor at one time
  • totally 4 channel H-bridge, with 600mA output current (peak 1.2A) per single bridge
  • ESD protection

What's on Board

1. External power supply jack
2. Power input/output pinheader
3. Stepping motor interface
4. DC motor interface
5. M_PWR configuration : connects M_PWR (motor power) to 5V or ADJ
6. Power selection switch
7. Power indicator
8. AMS1117-ADJ : onboard linear regulator with adjustable output
9. Adjustable potentiometer : for adjusting the output voltage of ADJ (adjustable motor power)
10. L293D : dual H-bridge driver
11. LM2596-5.0 : onboard linear switching regulator with 5V output

Note : when in operation, it's normal that the onboard motor drivers and regulators generate lots of heat.

Development resources: demo codes, schematic, datasheets, etc.
www.waveshare.com/Motor_Control_Shield

Overview

Arduino is a massive ecosystem, if there's a way for the Raspberry Pi GPIO interface to adapt to Arduino pinouts, it is possible to use the Pi together with vast Arduino shields and hardware/software resources. The ARPI600 is just intended for this.

What's more, the ARPI600 also support XBee modules, make it easy to add wireless feature to your great project.

ARPI600 Features

• Standard Raspberry Pi 40PIN GPIO extension header, supports Raspberry Pi series boards
• Compatible with Arduino UNO, Leonardo, easy to connect with various Arduino shields
• XBee connector for connecting various XBee modules
• Sensor interface for connecting various sensors
• Onboard USB TO UART for serial port debugging, also can be configured as XBee USB adapter
• Onboard ADC, 10 bit, 38KSPS, 11 channels (6 channels for Arduino interface, 5 channels for sensors)
• Onboard RTC

What's on the ARPI600

1. Arduino connector : for connecting Arduino shields
2. ICSP interface : Arduino ICSP
3. XBee connector : for connecting XBee communication modules
4. Sensor interface : for connecting sensors
5. Raspberry Pi connector : for connecting Raspberry Pi
6. USB TO UART
7. TLC1543 : AD converter
8. PCF8563 : RTC
9. CP2102
10. 32.768KHz crystal : for RTC
11. Power indicator
12. XBee state LED
13. XBee and Arduino interface RESET button
14. XBee EASYLINK button
15. RTC battery holder : for CR1220 button battery
16. TLC1543 reference voltage configuration jumper
17. RTC jumper
18. UART jumper
    
    • when connecting P_RX and CP_TX, P_TX and CP_RX respectively, USB TO UART is connected to Raspberry Pi serial port
    • when connecting XB_RX and CP_TX, XB_TX and CP_RX respectively, USB TO UART is connected to XBee serial port
    • when connecting XB_RX and P_TX, XB_TX and P_RX respectively, Raspberry Pi serial port is connected to XBee serial port
19. Arduino AD selection jumper
    
    • short 2 and 3 : Arduino A0-A5 as AD input
    • short 1 and 2 : Arduino A0-A5 as digital control
20. Arduino I2C selection jumper
    
    • short the jumper : Arduino A4-A5 as I2C control (the A4-A5 of Arduino AD selection jumper should be opened)
21. Arduino SPI selection jumper
    
    • short 1 and 2 : Arduino D11-D13 as SPI control (default)
    • short 2 and 3 : Arduino D11-D13 as digital control

Development Resources

Wiki : www.waveshare.com/wiki/ARPI600

Whether you want to build robots, smart devices, or any other electronically controlled projects, this is the book you need. We take you through how to program and connect an Arduino microcontroller board, then explore some great projects to make with it.

• Build a four-legged walking robot
• Create a Tetris-inspired clock
• Grow your own veg with hydroponics
• Make music with a DIY synthesizer
• And much more!

•     ATmega328 running at 16MHz with external resonator (0.5% tolerance)   
•     0.8mm Thin PCB   
•     USB connection off board   
•     Supports auto-reset   
•     5V regulator   
•     Max 150mA output   
•     Over current protected   
•     Weighs less than 2 grams!   
•     DC input 5V up to 12V   
•     On board Power and Status LEDs   
•     Analog Pins: 8   
•     Digital I/Os: 14   

Specification

1.USB 2.0 specification
2.Connector: USB 2.0-A male > USB 2.0-B male
3.Cable length: 1.8m
4.For use with Arduino