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The Arduino Nano 33 IoT is the easiest and cheapest point of entry to enhance existing devices (and creating new ones) to be part of the IoT and designing pico-network applications. Whether you are looking at building a sensor network connected to your office or home router, or if you want to create a BluetoothĀ® Low Energy device sending data to a cellphone, the Nano 33 IoT is your one-stop-solution for many of the basic IoT application scenarios.
The board's main processor is a low power ArmĀ® CortexĀ®-M0 32-bit SAMD21. The WiFi and BluetoothĀ® connectivity is performed with a module from u-blox, the NINA-W10, a low power chipset operating in the 2.4GHz range. On top of those, secure communication is ensured through the MicrochipĀ® ECC608 crypto chip. Besides that, you can find a 6 axis IMU, what makes this board perfect for simple vibration alarm systems, pedometers, relative positioning of robots, etc.
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At Arduino we have made connecting to a WiFi network as easy as getting an LED to blink. You can get your board to connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point. The specific set of examples we provide for the Nano 33 IoT can be consulted at the WiFiNINA library reference page.
It is also possible to connect your board to different Cloud services, Arduino's own among others. Here some examples on how to get the Arduino boards to connect to:
| Service | Description |
|---|---|
| Arduino IoT Cloud | A simple and fast way to ensure secure communication for all of your connected Things. |
| Blynk | A simple community project to operate your board from a phone with little code. |
| IFTTT | In-depth case of building a smart plug connected to IFTTT. |
| AWS IoT Core | Example showing how to connect to Amazon Web Services. |
| Azure | GitHub repository explaining how to connect a temperature sensor to Azure's Cloud. |
| Firebase | Arduino library showing how to connect to Google Firebase. |
Note: while most of the above-shown examples are running on the MKR WiFi 1010, both boards have the same processor and wireless chipset, which means it will be possible to replicate them with the Nano 33 IoT.
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The communications chipset on the Nano 33 IoT can be both a BluetoothĀ® and BluetoothĀ® Low Energy client and host device. Something pretty unique in the world of microcontroller platforms. If you want to see how easy it is to create a BluetoothĀ® central or a peripheral device, explore the examples at our ArduinoBLE library.
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The Nano 33 IoT is a dual processor device that invites for experimentation. Hacking the WiFiNINA module allows you to, for example, make use of both WiFi and BluetoothĀ® and BluetoothĀ® Low Energy at once on the board. Yet another possibility is having a super-lightweight version of linux running on the module, while the main microcontroller controls low level devices like motors, or screens. These experimental techniques, require advanced hacking on your side. They are possible via modifying the module's firmware that you can find at our github repositories.
BEWARE: this kind of hacking breaks the certification of your WiFiNINA module, do it at your own risk.
Ā
The Arduino Nano 33 IoT is based on the SAMD21 microcontroller.
| Microcontroller | SAMD21 CortexĀ®-M0+ 32-bit low-power ARM MCU |
| Radio Module | u-blox NINA-W102 |
| Secure Element | ATECC608A |
| Operating Voltage | 3.3V |
| Input Voltage (limit) | 21V |
| DC Current per I/O Pin | 7 mA |
| Clock Speed | 48 MHz |
| CPU Flash Memory | 256 KB |
| SRAM | 32 KB |
| EEPROM | None |
| Digital I/O Pins | 14 |
| PWM Pins | 11 (2, 3, 5, 6, 9, 10, 11, 12, 16/A2, 17/A3, 19/A5) |
| UART | 1 |
| SPI | D11 (COPI), D12 (CIPO), D13 (SCK), CS on any GPIO |
| I2C | A4 (SDA), A5 (SCL) |
| Analog Input Pins | 8 (ADC 8/10/12-bit) |
| Analog Output Pins | 1 (10-bit DAC) |
| External Interrupts | All digital pins (analog pins supported with shared interrupt numbers) |
| LED_BUILTIN | Pin 13 |
| USB | Native USB (SAMD21) |
| IMU | LSM6DS3 |
| Length | 45 mm |
| Width | 18 mm |
| Weight | 5 g (with headers) |
Ā
The following Declarations of Conformities have been granted for this board:
CEĀ Ā |Ā Ā FCCĀ Ā |Ā Ā RoHSĀ Ā |Ā Ā REACHĀ Ā |Ā Ā WEEEĀ Ā |Ā Ā UKCAĀ Ā |Ā Ā RCMĀ Ā |Ā Ā ISED/IC
For any further information about our certifications please visit docs.arduino.cc/certifications
| Eagle Files | Ā Download |
| Schematics | Ā Download |
| Fritzing IN | Ā Download |
| Datasheet | Ā Download |
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The Arduino Nano 33 IoT is the easiest and cheapest point of entry to enhance existing devices (and creating new ones) to be part of the IoT and designing pico-network applications. Whether you are looking at building a sensor network connected to your office or home router, or if you want to create a BluetoothĀ® Low Energy device sending data to a cellphone, the Nano 33 IoT is your one-stop-solution for many of the basic IoT application scenarios.
The board's main processor is a low power ArmĀ® CortexĀ®-M0 32-bit SAMD21. The WiFi and BluetoothĀ® connectivity is performed with a module from u-blox, the NINA-W10, a low power chipset operating in the 2.4GHz range. On top of those, secure communication is ensured through the MicrochipĀ® ECC608 crypto chip. Besides that, you can find a 6 axis IMU, what makes this board perfect for simple vibration alarm systems, pedometers, relative positioning of robots, etc.
Ā
At Arduino we have made connecting to a WiFi network as easy as getting an LED to blink. You can get your board to connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point. The specific set of examples we provide for the Nano 33 IoT can be consulted at the WiFiNINA library reference page.
It is also possible to connect your board to different Cloud services, Arduino's own among others. Here some examples on how to get the Arduino boards to connect to:
| Service | Description |
|---|---|
| Arduino IoT Cloud | A simple and fast way to ensure secure communication for all of your connected Things. |
| Blynk | A simple community project to operate your board from a phone with little code. |
| IFTTT | In-depth case of building a smart plug connected to IFTTT. |
| AWS IoT Core | Example showing how to connect to Amazon Web Services. |
| Azure | GitHub repository explaining how to connect a temperature sensor to Azure's Cloud. |
| Firebase | Arduino library showing how to connect to Google Firebase. |
Note: while most of the above-shown examples are running on the MKR WiFi 1010, both boards have the same processor and wireless chipset, which means it will be possible to replicate them with the Nano 33 IoT.
Ā
The communications chipset on the Nano 33 IoT can be both a BluetoothĀ® and BluetoothĀ® Low Energy client and host device. Something pretty unique in the world of microcontroller platforms. If you want to see how easy it is to create a BluetoothĀ® central or a peripheral device, explore the examples at our ArduinoBLE library.
Ā
The Nano 33 IoT is a dual processor device that invites for experimentation. Hacking the WiFiNINA module allows you to, for example, make use of both WiFi and BluetoothĀ® and BluetoothĀ® Low Energy at once on the board. Yet another possibility is having a super-lightweight version of linux running on the module, while the main microcontroller controls low level devices like motors, or screens. These experimental techniques, require advanced hacking on your side. They are possible via modifying the module's firmware that you can find at our github repositories.
BEWARE: this kind of hacking breaks the certification of your WiFiNINA module, do it at your own risk.
Ā
The Arduino Nano 33 IoT is based on the SAMD21 microcontroller.
| Microcontroller | SAMD21 CortexĀ®-M0+ 32-bit low-power ARM MCU |
| Radio Module | u-blox NINA-W102 |
| Secure Element | ATECC608A |
| Operating Voltage | 3.3V |
| Input Voltage (limit) | 21V |
| DC Current per I/O Pin | 7 mA |
| Clock Speed | 48 MHz |
| CPU Flash Memory | 256 KB |
| SRAM | 32 KB |
| EEPROM | None |
| Digital I/O Pins | 14 |
| PWM Pins | 11 (2, 3, 5, 6, 9, 10, 11, 12, 16/A2, 17/A3, 19/A5) |
| UART | 1 |
| SPI | D11 (COPI), D12 (CIPO), D13 (SCK), CS on any GPIO |
| I2C | A4 (SDA), A5 (SCL) |
| Analog Input Pins | 8 (ADC 8/10/12-bit) |
| Analog Output Pins | 1 (10-bit DAC) |
| External Interrupts | All digital pins (analog pins supported with shared interrupt numbers) |
| LED_BUILTIN | Pin 13 |
| USB | Native USB (SAMD21) |
| IMU | LSM6DS3 |
| Length | 45 mm |
| Width | 18 mm |
| Weight | 5 g (with headers) |
Ā
The following Declarations of Conformities have been granted for this board:
CEĀ Ā |Ā Ā FCCĀ Ā |Ā Ā RoHSĀ Ā |Ā Ā REACHĀ Ā |Ā Ā WEEEĀ Ā |Ā Ā UKCAĀ Ā |Ā Ā RCMĀ Ā |Ā Ā ISED/IC
For any further information about our certifications please visit docs.arduino.cc/certifications
| Eagle Files | Ā Download |
| Schematics | Ā Download |
| Fritzing IN | Ā Download |
| Datasheet | Ā Download |
No reviews yet. Be the first to share your experience!
Discover More In:
Category: View all Development Boards
Fill out the form below and our team will get back to you with bulk pricing.
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