Arduino boards

Specifications

• 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

• MCU: R7FA4M1AB3CFM#AA0 (Arm cortex M4)
• Memory: 256KB Flash / 32KB SRAM
• Operating Voltage: 5V
• Input Voltage 6-24V
• Clock Speed: 48 MHz
• Programming Port: USB-C
• WiFi/BLE: ESP32-S3-MINI
• LED Matrix: 12x8 (96 red LEDs)
• Additional Connections: Qwiic Connector, OFF Pin, VRTC Pin
• Digital Pins: 14
• PWM: 6
• ADC: 6
• DAC: 1 (12 bit)
• SPI: 1
• I2C: 1
• CAN: 1

• Arduino Docs
• Schematics
• Datasheet

• MCU: R7FA4M1AB3CFM#AA0 (Arm cortex M4)
• Memory: 256KB Flash / 32KB SRAM
• Operating Voltage: 5V
• Input Voltage: 6-24V
• Clock Speed: 48 MHz
• Programming Port: USB-C
• Digital Pins: 14
• PWM: 6
• ADC: 6
• DAC: 1 (12 bit)
• SPI: 1
• I2C: 1
• CAN: 1

• You can watch a YouTube video on the Minima by Explaining Computers
• Arduino Docs
• Schematics
• Datasheet

Tutorials

• Getting Started with Arduino  - UNO, good for 1st-time users.

FAQs

Can I use hardware compatible with the Arduino UNO R3 with the Arduino UNO R4 Minima?

Yes, the Arduino UNO R4 Minima was specifically designed to ensure compatibility with previous shields and compatible hardware developed for the Arduino UNO R3. The UNO R4 Minima maintains the same mechanical and electrical compatibility, allowing you to seamlessly use your existing shields and hardware with the new board. This makes it easy to upgrade to the UNO R4 Minima without the need for significant changes or adaptations to your projects.

Can I use my sketch developed for the UNO R3 in the UNO R4 Minima?

Yes, if your sketch was developed using the Arduino API. In case you are using instructions only available for the AVR architecture, some changes need to be made to ensure compatibility.

Are all libraries compatible with the UNO R3 also compatible with the UNO R4 Minima?

No, some UNO R3 libraries use instructions of the AVR architecture that are not compatible with the architecture of the UNO R4 Minima, however there are libraries that have already been ported as part of our early adopters program or are based on the Arduino API. 

•     Coding & Electronics made easy with built-in:{ 12x LEDs; 1x buzzer; 1x button; }
•     Troubleshooting made easy with LED indicators.

For experienced makers, this is also useful to quickly test your code without having to connect any other devices.

With the conventional Arduino boards, makers also face another common problem - difficulty in troubleshooting their circuit. This is because when it doesn't work, we do not know whether the problem is due to wire connection or coding.

• Maker UNO User's Manual
• Maker UNO Edu Kit Getting Started Module
• Maker-UNO Schematic
• Maker-UNO Fritzing File
• Maker-UNO 3D file(IGS and STEP files)
• CH34X driver (Please ensure the Maker UNO is plug into computer USB port during driver installation)
  • Windows (V3.5 Mar2019)
  • Mac OS (V1.5 Mar2019)
  • Linux (V1.5 Mar2019) (Normally is readily installed)
  • CH34X Driver - Get the latest driver from the factory

• Getting Started with Maker UNO (video)
• Maker UNO Projects

• Maker UNO's Default Program
• Arduino IDE Download
• How To Program Arduino (Maker UNO) Using Atmel Studio
  • Introduction Atmel Studio 7 is the integrated development platform (IDP) for developing and debugging all AVR® and SAM microcontroller applications. The Atmel Studio 7 IDP gives you a seamless and easy-to-use environment to write, build and debug your applications written in C/C or assembly code.
• Program Maker UNO using Chromebook

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!

 

What's in the box?

1 x 328 Main Board

• Microcontroller Atmel ATmega328
• Operating Voltage (logic level): 5V
• Input Voltage (recommended): 7V ~ 12V
• Input Voltage (limits): 6V ~ 20 V
• Digital I/O Pins: 14 (of which 6 provide PWM output)
• Analog Input Pins: 8
• DC Current per I/O Pin: 40mA
• Flash Memory: 32KB (ATmega328) (of which 2 KB used by bootloader)
• SRAM: 2KB (ATmega328)
• EEPROM: 1KB (ATmega328)
• Clock Speed: 16MHz
  
  

OV7670 image sensor, small size, low operating voltage, and provides all the features of the single-chip VGA camera and image processor. Through the SCCB bus control, you can output the entire frame, sub-sampled, take the window way affect the data resolution of 8 bits. VGA image of the product is up to 30 frames / sec. Users can fully control the image quality, data format and transmission mode. The process of image processing functions including gamma curves, white balance, saturation, chroma, and so can be programmed through the SCCB interface. OmmiVision image sensor applications unique sensor technology to improve image quality by reducing or eliminating the optical or electronic defect, such as fixed pattern noise, tail-blooming, clear and stable color image.

• Low voltage suitable for embedded applications
• Standard SCCB interface compatible with I2C interface
• RawRGB to RGB (GRB4: 2:2, RGB565/555/444), YUV (4:2:2) and YCbCr (4:2:2)output format
• support VGA, CIF, and from CIF to 40x30 the size
• VarioPixel subsampling way eliminate light stripes, automatic black level calibration image quality control including color saturation, hue, gamma, sharpness ANTI_BLOOM
• ISP has eliminate noise and dead pixel compensation function
• Support image scaling
• The lens is the loss of light compensation
• 50/60Hz detection
• The saturation automatically adjust ( UV adjustment)
• edge enhancement automatically adjust
• Noise Reduction automatically adjust

• photosensitive array 640X480
• O voltage 2.5V to 3.0V ( internal LDO to core supplies ) the
• power operation 60mW/15fpsVGAYUV
• Sleep < 20 μ A
• temperature operation from 0 ° C to 50 ° C
• ( 8 -bit) output format ? YUV/YCbCr4 RGB565/555/444 GRB4: 2:2: 2:2 Raw RGB Data
• Optical size of 1/6 "
• field of view angle of 25 °
• maximum Zhen rate 30fps VGA
• Sensitivity 1.3V / (Lux-sec)
• signal to noise ratio of 46 dB
• dynamic range of 52 dB
• browsing mode progressive
• electronic exposure
• area of 3.6 μ mx 3.6 μ m
• dark current 12 mV / s at 60 ° C

• 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!

Meet the only connected RP2040 board. It fits the Arduino Nano form factor, making it a small board with BIG features.

The brain of the board is the Raspberry Pi RP2040 silicon; a dual-core Arm Cortex M0 running at 133MHz. It has 264KB of SRAM, and the 16MB of flash memory is off-chip to give you extra storage.

But what’s really exciting is the on-board connectivity options. The hugely popular and highly adaptable u-blox NINA-W102 radio module is on there to make this a true IoT champion. This also means you can harness the power of the cloud, with fully Arduino Cloud compatibility.

It’s got on-board, built-in sensors to turn your builds into powerhouse projects, too. Microphone and motion sensing add a depth of possibilities that’s almost impossible to find in a board of this size.

The Arduino Nano RP2040 Connect is the premium choice for RP2040 devices, and the perfect option for upgrading your projects and unlocking the potential of new ones.


Specifications:

• What's in the Box ?
  
  1 x Arduino Nano RP2040
  
  

• Resources, troubleshooting, how to install new bootloader:
  - Nano RP2040 connect Cheat Sheet 
  

• Discover how to access the features Nano RP2040 Connect using Python scripts.
  https://docs.arduino.cc/tutorials/nano-rp2040-connect/rp2040-python-api
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  

You can change the communication way via the jumper cap on the shield. If all the three jumpers are connected to APC, the shield will realize the XBEE Bluetooth communication. If all jumpers are connected to 485, realize the RS485 communication function.

Onboard also comes with a reset button, a D13 indicator, and some common communication pins of 2.54mm pin pitch, such as serial port, IIC, and SPI communication pins.

Besides, it also has two 2pin terminal blocks. One is VIN GND terminal block, used to supply the external power for the UNO R3 control board, with an input voltage of DC 7-12V. The other is the Servo_PWR terminal block, used for VCC voltage input/output. If not connecting the external voltage, supply 5V for the shield; if connecting the external voltage, VCC voltage is actually the external input voltage.

• Compatible with Arduino UNO R3.
• Comes with 14 digital input/output pins.
• Comes with 6 analog IO pins
• Onboard comes with a digital port power terminal block
• Comes with an external power input terminal block and a input contact pin ( power on the control board with DC 7-12V)
• Comes with an RS485 interface.
• Comes with a reset button
• Comes with a D13 indicator
• Comes with a XBEE Bluetooth interface
• Can connect three jumper caps (APC and 485) to switch the XBEE Bluetooth communication or RS485 communication.
• Comes with I2C, serial port and SPI communication pins
• Onboard comes with a DC 3.3V output pin
• Dimensions: 58.5mm x 57.5mm x 20mm
• Weight: 26.2g

1. USB 2.0
2. Connector: USB 2.0-A male > USB 2.0-B male
3. Cable length: 1m
4. For use with Arduino Uno
5. Colour: Black

What's in the box?

1 x USB A to B cable

You can learn the basics 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.

What's in the box?

1 x Arduino compatible UNO R3 development board
1 x USB A to USB B cable
1 x 400 point breadboard
5 x Red LED
5 x Green LED
5 x Yellow LED
6 x momentary tactile switches with button caps
2 x Photoresistors
1 x 20 pin male to male jumpers
1 x 40 pin male header
10 x 220 ohm resistor
10 x 10k resistor
10 x 100k resistor
10 x 1k resistor
1 x Battery button connector for 9V battery (battery not included)


Resources

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

PLEASE NOTE: Not all of the components in the tutorials are available in this kit

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

•     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   

• Getting Started
• Getting started with Arduino products