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Arduino MKR1000 with Headers

RM 200.00

Features:

  • Wi-Fi connectivity through WINC1500 low power 2.4GHz IEEE® 802.11 b/g/n Wi-Fi
  • SAMD21 Cortex-M0+ 32bit low power ARM MCU
  • ECC508 CryptoAuthentication
  • Li-Po charging circuit
  • Maximum Voltage that I/O pins can tolerate is 3.3V
  • Flash Memory of 256KB
  • 32KB SRAM

Part List:

. Arduino MKR1000 with headers x 1

Description:

Arduino MKR1000 has been designed to offer a practical and cost effective solution for makers seeking to add Wi-Fi connectivity to their projects with minimal previous experience in networking.It is based on the Atmel ATSAMW25 SoC (System on Chip), that is part of the SmartConnect family of Atmel Wireless devices, specifically designed for IoT projects and devices.

The ATSAMW25 is composed of three main blocks:

SAMD21 Cortex-M0+ 32bit low power ARM MCU

WINC1500 low power 2.4GHz IEEE® 802.11 b/g/n Wi-Fi

ECC508 CryptoAuthentication

The ATSAMW25 includes also a single 1x1 stream PCB Antenna.

The design includes a Li-Po charging circuit that allows the Arduino/Genuino MKR1000 to run on battery power or external 5V, charging the Li-Po battery while running on external power. Switching from one source to the other is done automatically.A good 32 bit computational power similar to the Zero board, the usual rich set of I/O interfaces, low power Wi-Fi with a Cryptochip for secure communication, and the ease of use of the Arduino Software (IDE) for code development and programming. All these features make this board the preferred choice for the emerging IoT battery-powered projects in a compact form factor.The USB port can be used to supply power (5V) to the board.The Arduino MKR1000 is able to run with or without the Li-Po battery connected and has limited power consumption.

The MKR1000 Wifi module supports certificate SHA-256.

Warning:

Unlike most Arduino & Genuino boards, the  MKR1000 runs at 3.3V. The maximum voltage that the I/O pins can tolerate is  3.3V. Applying voltages higher than 3.3V to any I/O pin could damage the board. While output to 5V digital devices is possible, bidirectional communication  with 5V devices needs proper level shifting.