Your position: Home > Local Delivery > UK Warehouse

Kuman Due Sam3x8e Robot for Arduino UNO Mega2560 R3 Duemilanove + Free USB Cable/due #K7

Item Code: #K7
Unit Price:
USD $19.88
Price:
USD
$19.88
  • Warehouse Options:
    UK
Shipping Cost:
to
Delivery:
Estimated between
Units
  • Description
Key Features:
● AT91SAM3X8E ARM 32-bit Microcontroller @ 84MHz
● Operating Voltage: 3.3V
● 54 digital I/O pins, 12 analog inputs, 2 DAC (analog output)
● Flash Memory: 512 KB all available for the user applications
● We produce this board based on the open-source official schematics.The printing or color on the board may be different from each
production date, but the function is exactly the same

Specifications :
* Recommended Input Voltage: 7-12V
* Min-Max Input Voltage: 6-20V
* Digital I/O Pins: 54 (of which 12 provide PWM output)
* Analog Input Pins: 12
* Analog Outputs Pins: 2
* Total DC Output Current on all I/O lines: 130 mA
* DC Current for 3.3V Pin: 800 mA
* DC Current for 5V Pin: 2A
* Flash Memory: 512 KB all available for the user applications
* SRAM: 96 KB (two banks: 64KB and 32KB)
* Clock Speed: 84 MHz

Packing List:
1 x DUE R3 ARM 32
1 x USB Cable

Due is a special product of Arduino. By now the compatible Shield with Due is still not so many. This is because there is a little different between class libraries. The Pin Definition of Due is completely consistent with MEGA 2560's, but their I/O power supply parameters have a little difference. There is a Warning notice on the official website of Due:

Our store will make a rigorous testing about Due before we send them out. But please also read the related Due's official website instructions and documents carefully before using it. We will not be responsible for the damages which are caused by improper operations. If you want to know more about Due and its solutions of related problems, you can search the official website of Arduino:

NOTE2:
Unlike other boards, the Due board runs at 3.3V. The maximum voltage that the I/O pins can tolerate is 3.3V. Providing higher voltages, like 5V to an I/O pin could damage the board.
Customer Reviews
Average rating: