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Analog input (pins) Analog output pins Arduino Nano ESP32 [3] u-blox NORA-W106 (ESP32-S3) up to 240 MHz minimal 45 mm × 18 mm [ 1.8 in × 0.7 in ] USB-C 3.3 V 16MB 384 512 14 5 8 Arduino Uno WiFi rev 2 [4] ATMEGA4809, NINA-W132 Wi-Fi module from u-blox, ECC608 crypto device 16 MHz Arduino / Genuino
Analog input (pins) Analog output pins Arduino / Genuino MKR1000 Arduino Yes ATSAMW25 (made of SAMD21 Cortex-M0+ 32 bit ARM MCU, WINC1500 2.4 GHz 802.11 b/g/n Wi-Fi, and ECC508 crypto device ) 48 MHz minimal 61.5 mm x 25 mm USB 3.3 V 256 No 32 8 12 7 1 Announced: April 2, 2016 Arduino 101 [1] Genuino 101. Arduino Yes
An early Arduino board [28] with an RS-232 serial interface (upper left) and an Atmel ATmega8 microcontroller chip (black, lower right); the 14 digital I/O pins are at the top, the 6 analog input pins at the lower right, and the power connector at the lower left.
The word "uno" means "one" in Italian and was chosen to mark a major redesign of the Arduino hardware and software. [7] The Uno board was the successor of the Duemilanove release and was the 9th version in a series of USB-based Arduino boards. [8] Version 1.0 of the Arduino IDE for the Arduino Uno board has now evolved to newer releases. [4]
7-23-channel 130 kS/s 12-bit differential Analog-to-Digital Converter (ADC), no amplifiers; 1 analog comparator; Two USARTs, one SPI, one dual-mode TWI; Multi-Voltage Input/Output (MVIO) support on 3 or 4 pins on Port C; 4 Configurable Custom Logic (CCL) cells, 6 Event System channels; AVR EA-series. 8–64k flash; 28–48-pin package; internal ...
The Make Controller Kit with an Atmel AT91SAM7X256 microcontroller.. A single-board microcontroller is a microcontroller built onto a single printed circuit board.This board provides all of the circuitry necessary for a useful control task: a microprocessor, I/O circuits, a clock generator, RAM, stored program memory and any necessary support ICs.
Example 1: The steps to converting an analog input to 9-bit digital, using successive-approximation, are shown here for all voltages from 5 V to 0 V in 0.1 V iterations. Since the reference voltage is 5 V, when the input voltage is also 5 V, all bits are set.
For example, Schmitt-trigger inputs, high-current output drivers, optical isolators, or combinations of these, may be used to buffer and condition the GPIO signals and to protect board circuitry. Also, higher-level functions are sometimes implemented, such as input debounce , input signal edge detection, and pulse-width modulation (PWM) output.