ARDUINO NANO 33 BLE WITH HEADERS

  • 31.56 USD

Designad för kortvariga BT-interaktioner och kraft profiler.Estimate shipping date, mid August 2019This compact and reliable Nano board is built around the NINA

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Artikelnummer: 437
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Designad för kortvariga BT-interaktioner och kraft profiler.

Estimate shipping date, mid August 2019

This compact and reliable Nano board is built around the NINA B306 module, based on Nordic nRF 52840 and containing a powerful Cortex M4F.
Its architecture, fully compatible with Arduino IDE Online and Offline, has a 9 axis Inertial Measurement Unit (IMU) and reduced power consumption compared to other same size boards.
This allows the design of wearable devices and movement sensing projects that need to communicate with other devices at a close range. Arduino Nano 33 BLE is also ideal for automation projects thanks to the multiprotocol BT 5.0 radio.

With headers mounted.

Specifications

This board is based on the nRF 52840 microcontrollers.

Clock
64MHz
Flash
1MB
RAM
256KB

Please note: Arduino Nano 33 BLE only supports 3.3V I/Os and is NOT 5V tolerant so please make sure you are not directly connecting 5V signals to this board or it will be damaged. Also, as opposed to Arduino Nano boards that support 5V operation, the 5V pin does NOT supply voltage but is rather connected, through a jumper, to the USB power input.

To avoid such risk with existing projects, where you should be able to pull out a Nano and replace it with the new Nano 33 BLE, we have the 5V pin on the header, positioned between RST and A7 that is not connected as the default factory setting. This means that if you have a design that takes 5V from that pin, it won’t work immediately, as a precaution we put in place to draw your attention to the 3.3V compliance on digital and analogue inputs.

5V on that pin is available only when two conditions are met: you make a solder bridge on the two pads marked as VUSB and you power the NANO 33 IoT through the USB port. If you power the board from the VIN pin, you won’t get any regulated 5V and therefore even if you do the solder bridge, nothing will come out of that 5V pin. The 3.3V, on the other hand, is always available and supports enough current to drive your sensors. Please make your designs so that sensors and actuators are driven with 3.3V and work with 3.3V digital IO levels. 5V is now an option for many modules and 3.3V is becoming the standard voltage for electronic ICs.

The Bluetooth is managed by a NINA B306 module.

The IMU is a LSM9DS1 and it is managed through I2C.

The board has a two 15 pins connectors - one on each side -,  pin to pin compatible with the original Arduino Nano.

Pin
Funcion
Type
Description
1
D13
Digital
GPIO
2
+3V3
Power Out
Internally generated power output to external devices
3
AREF
Analog
Analog Reference; can be used as GPIO
4
A0/DAC0
Analog
ADC in/DAC out; can be used as GPIO
5
A1
Analog
ADC in; can be used as GPIO
6
A2
Analog
ADC in; can be used as GPIO
7
A3
Analog
ADC in; can be used as GPIO
8
A4/SDA
Analog
ADC in; I2C SDA; Can be used as GPIO (*)
9
A5/SCL
Analog
ADC in; I2C SCL; Can be used as GPIO(*)
10
A6
Analog
ADC in; can be used as GPIO
11
A7
Analog
ADC in; can be used as GPIO
12
VUSB 
Power In/Out
Normally NC; can be connected to VUSB pin of the USB connector by shorting a jumper
13
RST
Digital In
Active low reset input (duplicate of pin 18)
14
GND
Power
Power Ground
15
VIN
Power In
Vin Power input
16
TX
Digital
USART TX; can be used as GPIO
17
RX
Digital
USART RX; can be used as GPIO
18
RST
Digital
Active low reset input (duplicate of pin 13)
19
GND
Power
Power Ground
20
D2
Digital
GPIO
21
D3/PWM
Digital
GPIO; can be used as PWM
22
D4
Digital
GPIO
23
D5/PWM
Digital
GPIO; can be used as PWM
24
D6/PWM
Digital
GPIO; can be used as PWM
25
D7
Digital
GPIO
26
D8
Digital
GPIO
27
D9/PWM
Digital
GPIO; can be used as PWM
28
D10/PWM
Digital
GPIO; can be used as PWM
29
D11/MOSI
Digital
SPI MOSI; can be used as GPIO
30
D12/MISO
Digital
SPI MISO; can be used as GPIO

(*) As opposed to other Arduino Nano boards, pins A4 and A5 have an internal pull up and default to be used as an I2C Bus so usage as analog inputs is not recommended. Opposed to Arduino Nano boards that support 5V operation, the 5V pin does NOT supply voltage but is rather connected, through a jumper, to the USB power input.

On the bottom side of the board, under the communication module, debug signals are arranged as 3x2 test pads with 100 mil pitch. Pin 1 is the bottom left one with the USB connector on the left and the test pads on the right.

Pin
Function
Type
Description
1
+3V3
Power Out
Internally generated power output to be used as voltage reference
2
SWD
Digital
nRF52480 Single Wire Debug Data
3
SWCLK
Digital In
nRF52480 Single Wire Debug Clock
5
GND
Power
Power Ground
6
RST
Digital In
Active low reset input