Arduino® Nicla Vision Product Reference Manual SKU: ABX00051 Description The Arduino® Nicla Vision packs machine vision capabilities on the edge into a tiny fingerprint. Record, analyse and upload to the cloud all with the help of one Arduino® Nicla Vision. Leverage the onboard camera, STM32 microcontroller, Wi-Fi/Bluetooth® module and 6-axis IMU to create your own wireless sensor network for machine vision applications.
Arduino® Nicla Vision Features STM32H747AII6 Microcontroller Dual core 32-bit Arm® Cortex®-M7 core with double-precision FPU and L1 cache up to 480 MHz 32-bit Arm® 32-bit Cortex®-M4 core with FPU up to 240MHz Full set of DSP instructions Memory Protection Unit (MPU) Murata® 1DX Wi-Fi/BT Module Wi-Fi 802.11b/g/n 65 Mbps Bluetooth 4.2 BR/EDR/LE MAX17262REWL+T Fuel Gauge Implements ModelGauge m5 EZ for battery monitoring Low 5.
Arduino® Nicla Vision GC2145 Camera 2 Megapixel CMOS Camera on-chip 10-bit ADC 1.
Arduino® Nicla Vision Contents 1 Introduction 6 1.1 Application Examples 6 1.2 Accessories 6 1.3 Related Products 7 1.4 Assembly Overview 7 2 Ratings 7 2.1 Recommended Operating Conditions 7 2.2 Power Consumption 8 3 Functional Overview 8 3.1 Block Diagram 8 3.2 Board Topology 9 3.3 Processor 11 3.4 6-Axis IMU 11 3.5 Wi-Fi/Bluetooth Connectivity 11 3.6 Crypto Capabilities 11 3.7 Time of Flight Sensor 11 3.8 Digital Microphones 12 3.
Arduino® Nicla Vision 7.2 Declaration of Conformity to EU RoHS & REACH 211 01/19/2021 17 7.
Arduino® Nicla Vision 1 Introduction 1.1 Application Examples The Arduino® Nicla Vision houses the computational power, camera, IMU you need to quickly developed machine vision solutions at the edge together with two wireless technologies. The board can act as a field-ready standalone board, or can be argumented with external peripherals through the I/O available on the chip. Ultra low power consumption and integrated battery management allows for deployment in various capabilities.
Arduino® Nicla Vision 1.3 Related Products Arduino® Portenta H7 (SKU: ABX00042) 1.4 Assembly Overview Example of a typical solution for remote machine vision including an Arduino® Nicla Vision and LiPo battery. 2 Ratings 2.1 Recommended Operating Conditions Symbol Description Min Typ Max Unit VIN Input voltage from VIN pad 3.5 5.0 5.5 V VUSB Input voltage from USB connector 4.8 5.0 5.5 V VBATT Input voltage from battery 3.5 3.7 4.7 V VDDIO_EXT Level Translator Voltage 1.8 3.
Arduino® Nicla Vision 2.2 Power Consumption Symbol Description Min Typ Max Unit PSTDBY Power consumption in standby TBC mW PBLINK Power consumption with blink sketch TBC mW PSENSE Power consumption for polling all sensors at 1 Hz TBC mW PSENSE_LP Low Power consumption for polling all sensors once per hour TBC mW 3 Functional Overview 3.
Arduino® Nicla Vision 3.2 Board Topology Top View Nicla Vision Top View Ref. Description Ref. Description U1 STM32H747AII6 Dual ARM® Cortex® M7/M4 IC U4 VL53L1CBV0FY/1 Time-of-flight sensor IC U5 USB3320C-EZK-TR USB 2.
Arduino® Nicla Vision Ref. Description Ref. Description DL1 SMLP34RGB2W3 RGB SMD LED DL2 KPHHS-1005SURCK Red LED PB1 Reset button J6 U.FL-R-SMT-1(60) Male micro UFL connector Back View Nicla Vision Back View Ref. Description Ref.
Arduino® Nicla Vision Ref. Description Ref. Description J5 SM05B-SRSS-TB(LF)(SN) 5-pin ESLOV connector J7 microUSB connector 3.3 Processor H7's main processor is the dual core STM32H747 (U1) including a Cortex® M7 running at 480 MHz and a Cortex® M4 running at 240 MHz. The two cores communicate via a Remote Procedure Call mechanism that allows calling functions on the other processor seamlessly. 3.
Arduino® Nicla Vision 3.8 Digital Microphones The MP34DT05 digital MEMS microphone is omnidirectional and operate via a capacitive sensing element with a high (64 dB) signal to noise ratio. The sensing element, capable of detecting acoustic waves, is manufactured using a specialized silicon micromachining process dedicated to producing audio sensors (U6). 3.
Arduino® Nicla Vision +3V1 provides power to the microprocessor (U1), 25 MHz oscillator (U14), 32.768 oscillator (Y1), USB transceiver (U5) and Wi-Fi/Bluetooth module. +2V8A provides power to the camera (M1) and time-of-flight sensor (U4) +1V8 provides power to the microprocessor (U1), camera (M1), USB transceiver (U5), Wi-Fi/Bluetooth module (U9), accelerometer (U3), microphone (U6), crypto (U8), FLASH (U13),27 MHz oscillator (U15) as well as the two level translators (U11,U12).
Arduino® Nicla Vision 4.4 Getting Started - WebBLE The Arduino Nicla Vision provides capability for OTA updates to the STM32 microcontroller using WebBLE. 4.5 Getting Started - ESLOV This board can act as a secondary to a ESLOV controller and have the firmware updated through this method. 4.6 Sample Sketches Sample sketches for the Arduino® Nicla Vision can be found either in the “Examples” menu in the Arduino® IDE or on the Arduino® documentation website [4] 4.
Arduino® Nicla Vision 5.2 J2 Pin Header Pin Function Type Description 1 SDA Digital I2C Data Line 2 SCL Digital I2C Clock 3 GPIO1_EXT Digital GPIO Pin 1 4 GPIO2_EXT Digital GPIO Pin 2 5 GPIO3_EXT Digital GPIO Pin 3 6 GND Power Ground 7 VDDIO_EXT Digital Logic Level Reference 8 N/C N/A N/A 9 VIN Digital Input Voltage 5.
Arduino® Nicla Vision Nicla Vision Mechanical Drawing 16 / 19 Arduino® Nicla Vision Modified: 08/03/2022
Arduino® Nicla Vision 7 Certifications 7.1 Declaration of Conformity CE DoC (EU) We declare under our sole responsibility that the products above are in conformity with the essential requirements of the following EU Directives and therefore qualify for free movement within markets comprising the European Union (EU) and European Economic Area (EEA). 7.
Arduino® Nicla Vision 7.3 Conflict Minerals Declaration As a global supplier of electronic and electrical components, Arduino is aware of our obligations with regards to laws and regulations regarding Conflict Minerals, specifically the Dodd-Frank Wall Street Reform and Consumer Protection Act, Section 1502. Arduino does not directly source or process conflict minerals such as Tin, Tantalum, Tungsten, or Gold.
Arduino® Nicla Vision Important: The operating temperature of the EUT can’t exceed 85℃ and shouldn’t be lower than -40℃. Hereby, Arduino S.r.l. declares that this product is in compliance with essential requirements and other relevant provisions of Directive 201453/EU. This product is allowed to be used in all EU member states. Frequency bands Typical Output Power 2.
