Arduino Edge Control

SKU: 1017386
In Stock

24,299.00

  1. Operating Supply Voltage: 12 V.
  2. Dimensions: 104 mm x 86 mm.
  3. Interface Type: I2S, Serial, USB.
  4. Maximum Operating Temperature: + 85 C.
  5. Minimum Operating Temperature: – 40 C.
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Description

The Arduino Edge Control can be positioned anywhere and is suitable for precision farming, smart agriculture, and other applications requiring intelligent control in remote locations. Power can be either supplied via solar panel or DC input.

Remotely control your application through the Arduino Cloud using a choice of connectivity options suitable to the location. The Arduino Edge Control features built-in Bluetooth and its connectivity can be expanded with 2G/3G/CatM1/NB-IoT modems, LoRa®, Sigfox, and WiFi by adding anyone of the MKR boards also it has the capability to provide real-time monitoring over the entire process, thereby reducing production-related risks.

Particularly suited to smart agriculture, the sensors can collect real-time data such as weather conditions, soil quality, crop growth, amongst others. Once sent to the Arduino Cloud, the data value chain becomes valuable analytics that supports business processes at various levels (e.g. crop yield, equipment efficiency, staff performance, etc.). The Arduino Edge Control has the capability to improve crop quality and reduce human effort/error by automating processes like irrigation, fertilization, or pest control.

Application Examples:

  • Automated Greenhouses

Automatically manage the humidity and temperature to ensure the best environment for crop growth, minimizing carbon emissions and increasing economic yield. The inclusion of an Arduino MKR GPS Shield allows for optimum crop rotation planning and acquisition of geospatial data.

  • Hydroponics/Aquaponics

Since hydroponics involves the growth of plants without soil, delicate care must be taken to maintain the conditions required for optimum growth. The Arduino Edge Control can be set up to control these conditions with minimal manual labor. The Arduino Edge Control can help match the even higher requirements of Aquaponics, by providing automated control over the internal process and reducing production risks.

The Pin Diagram is Given below ………

The Arduino Edge Control includes a range of inputs and Outputs accessible via terminal Blocks.

Introducing Orange Arduino Kits

Stuck in a never-ending cycle of learning Sensors, Micro-controllers, microprocessors, and communication protocols but not gaining any knowledge? Let us introduce you to Orange premium kits. These high-quality kits comes with free e-booklet and blogs to help you learn faster.

Click Here To Explore Our Learning Kits!


Features:

  1. Precision farming & process automation.
  2. Improved yield & lower production risks.
  3. Real-time & historical data.
  4. Monitors environmental conditions.
  5. Powerable by solar panels.
  6. Easy installation.
  7. Connect easily with sensors/devices.
  8. Operates in high & low temperatures.
  9. Choice of connectivity types.
  10. Supports TensorFlow Lite micro for tiny machine learning applications.

Package Includes:

1 x Arduino Edge Control

Additional information

Microcontroller

nRF52840

Digital input

6 x edge-sensitive wake-up pins

Digital Output

8 x latching relay command outputs with drivers 8 x latching relay command outputs without drivers

Relays

4 x 60V/2.5A galvanically isolated solid-state relays

Analog input

4 x 4-20 mA inputs 8 x 0-5v analog inputs 16 x hydrostatic watermark sensor input

Terminal Block Connectors

6 x 18 pin plug-in terminal block connector

Power Supply

12 V Acid/Lead SLA Battery Supply (Recharged via solar panels)

Power Consumption

Low Power (up to 34 months on a 12v/5Ah battery) 200uA Sleep Current

Memory

1 MB onboard Flash memory 2 MB onboard QSPI Flash memory

Connectivity

Bluetooth Wifi 3G NB-IOT LoRaWAN

Peripherals

Full-speed 12 Mbps USB Arm cryptoCell CC310 security subsystem QSPI/SPI/TWI/PDM/QDEC High speed 32 MHz SPI Quad SPI interface 32 MHz 12-bit 200 ksps ADC

Operating Temperature Range (°C)

-40 to 85

Length (mm)

104

Width (mm)

86

Quick Comparison

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Description
  1. Operating Supply Voltage: 12 V.
  2. Dimensions: 104 mm x 86 mm.
  3. Interface Type: I2S, Serial, USB.
  4. Maximum Operating Temperature: + 85 C.
  5. Minimum Operating Temperature: – 40 C.
  1. Microcontroller: SAMD21 Cortex-M0+ 32bit low power ARM MCU (Datasheet)
  2. Radio module: u-blox NINA-W102
  3. Secure Element: ATECC608A
  4. IMU: LSM6DS3
  5. Clock Speed: 48MHz
  6. Operating Voltage: 3.3V

 

  1. Microcontroller: SAMD21 Cortex-M0+ 32bit low power ARM MCU (Datasheet)
  2. Radio module: u-blox NINA-W102
  3. Secure Element: ATECC608A
  4. IMU: LSM6DS3
  5. Clock Speed: 48MHz
  6. Operating Voltage: 3.3V
  1. Chip: ATMEGA4809
  2. Clock Speed: 20MHz
  3. Memory: 48KB
  4. Interface: USB, SPI, 12C, UART
  5. USB Vin: 5V
  6. Input VIN : 6-21V
  7. Operating Voltage: 5V
  8. I/O PINS: Digital PIN 14, PWM 5, Analog 8
  9. Dimensions: 18x45mm
  1. Microcontroller: 64 MHz Arm® Cortex M4 (nRF52832)
  2. Connectivity: Bluetooth® 4.2
  3. Interface: USB interface with debug functionality
  4. Tiny size, packed with features
  5. Low power consumption
  6. Add sensing capabilities to existing projects
  7. Weight: 2g
  1. 133MHz 32bit Dual Core Arm Cortex-M0+ Processor
  2. 264kB on-chip SRAM
  3. U-Blox Nina W102 WiFi/Bluetooth Module
  4. 240MHz 32bit Dual Core Xtensa LX6
  5. 520kB on-chip SRAM
Content

The Arduino Edge Control can be positioned anywhere and is suitable for precision farming, smart agriculture, and other applications requiring intelligent control in remote locations. Power can be either supplied via solar panel or DC input.

Remotely control your application through the Arduino Cloud using a choice of connectivity options suitable to the location. The Arduino Edge Control features built-in Bluetooth and its connectivity can be expanded with 2G/3G/CatM1/NB-IoT modems, LoRa®, Sigfox, and WiFi by adding anyone of the MKR boards also it has the capability to provide real-time monitoring over the entire process, thereby reducing production-related risks.

Particularly suited to smart agriculture, the sensors can collect real-time data such as weather conditions, soil quality, crop growth, amongst others. Once sent to the Arduino Cloud, the data value chain becomes valuable analytics that supports business processes at various levels (e.g. crop yield, equipment efficiency, staff performance, etc.). The Arduino Edge Control has the capability to improve crop quality and reduce human effort/error by automating processes like irrigation, fertilization, or pest control.

Application Examples:

  • Automated Greenhouses

Automatically manage the humidity and temperature to ensure the best environment for crop growth, minimizing carbon emissions and increasing economic yield. The inclusion of an Arduino MKR GPS Shield allows for optimum crop rotation planning and acquisition of geospatial data.

  • Hydroponics/Aquaponics

Since hydroponics involves the growth of plants without soil, delicate care must be taken to maintain the conditions required for optimum growth. The Arduino Edge Control can be set up to control these conditions with minimal manual labor. The Arduino Edge Control can help match the even higher requirements of Aquaponics, by providing automated control over the internal process and reducing production risks.

The Pin Diagram is Given below ………

The Arduino Edge Control includes a range of inputs and Outputs accessible via terminal Blocks.

Introducing Orange Arduino Kits

Stuck in a never-ending cycle of learning Sensors, Micro-controllers, microprocessors, and communication protocols but not gaining any knowledge? Let us introduce you to Orange premium kits. These high-quality kits comes with free e-booklet and blogs to help you learn faster.

Click Here To Explore Our Learning Kits!


Features:

  1. Precision farming & process automation.
  2. Improved yield & lower production risks.
  3. Real-time & historical data.
  4. Monitors environmental conditions.
  5. Powerable by solar panels.
  6. Easy installation.
  7. Connect easily with sensors/devices.
  8. Operates in high & low temperatures.
  9. Choice of connectivity types.
  10. Supports TensorFlow Lite micro for tiny machine learning applications.

Package Includes:

1 x Arduino Edge Control

The Arduino Nano 33 IoT is the easiest and cheapest point of entry to enhance existing devices (and create new ones) to be part of the IoT and design 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 BLE 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 Arm Cortex-M0 32-bit SAMD21. The WiFi and Bluetooth 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 that, secure communication is ensured through the Microchip ECC608 crypto chip.

Besides that, you can find a 6-axis IMU, which makes this board perfect for simple vibration alarm systems, pedometers, the relative positioning of robots, etc.

 

 


Features:

  1. Secure communication for all of your connected things with Arduino IoT Cloud.
  2. Connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point.
  3. Compatible with other Cloud Services.
  4. The communications chipset on the Nano 33 IoT can be both a BLE and Bluetooth client and host device.

Package Includes:

1 x Arduino Nano 33 IOT with Header

 

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 BLE 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 Arm Cortex-M0 32-bit SAMD21. The WiFi and Bluetooth 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 that, secure communication is ensured through the Microchip ECC608 crypto chip.

Besides that, you can find a 6 axis IMU, which makes this board perfect for simple vibration alarm systems, pedometers, the relative positioning of robots, etc.

 

 


Features:

  1. Secure communication for all of your connected things with Arduino IoT Cloud.
  2. Connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point.
  3. Compatible with other Cloud Services.
  4. The communications chipset on the Nano 33 IoT can be both a BLE and Bluetooth client and host device.

Package Includes:

1 x Arduino Nano 33 IOT

The Nano Every is Arduino’s 5V compatible board in the smallest available form factor: 45x18mm!

The Arduino Nano is the preferred board for many projects requiring a small and easy to use microcontroller board. The small footprint and low price, make the Nano Every particularly suited for wearable inventions, low-cost robotics, electronic musical instruments, and general use to control smaller parts of a larger projects.

The Arduino Nano Every is an evolution of the traditional Arduino Nano board but features a lot more powerful processor, the ATMega4809. This will allow you to make larger programs than with the Arduino Uno (it has 50% more program memory), and with a lot more variables (the RAM is 200% bigger).

Each set of headers allows you to stack a Qwiic Nano shield on top of your Arduino Nano or plug them into a solderless breadboard. Note: Soldering is required for functionality and physical attachment to a shield or board


Features:

  1. Easy to use
  2. Brand new product
  3. Small in size
  4. Easy to learn with Arduino
  5. Color: Blue
  6. low cost
  7. Low power consumptions

Packages Includes:

1 x ARDUINO NANO EVERY WITH HEADERS

The Nicla Sense ME is a tiny, low-power tool that sets a new standard for intelligent sensing solutions. With the simplicity of integration and scalability of the Arduino ecosystem, the board combines four state-of-the-art sensors from Bosch Sensor tech:

  • BHI260AP motion sensor system with integrated AI
  • BMM150 magnetometer
  • BMP390 pressure sensor
  • BME688 4-in-1 gas sensor with AI and integrated high-linearity, as well as high-accuracy pressure, humidity and temperature sensors.

Designed to easily analyze motion and the surrounding environment – hence the “M” and “E” in the name – it measures rotation, acceleration, pressure, humidity, temperature, air quality and CO2 levels by introducing completely new Bosch Sensor tech sensors on the market.

Its tiny size and robust design make it suitable for projects that need to combine sensor fusion and AI capabilities on the edge, thanks to a strong computational power and low-consumption combination that can even lead to standalone applications when battery operated.

Part of Arduino Pro’s new Nicla family of modular, intelligent products that are easy to use, cost effective, versatile and accessible, the Sense ME has a new, tiny form factor that is also compatible with the Arduino MKR and Portenta ranges.

Note: To purchase the compatible LIPO battery for this board CLICK HERE


Features:

  1. Tiny size, packed with features
  2. Low power consumption
  3. Add sensing capabilities to existing projects
  4. When battery-powered, becomes a complete standalone board
  5. Powerful processor, capable of hosting intelligence on the Edge
  6. Measures motion and environmental parameters
  7. Robust hardware including industrial-grade sensors with embedded AI
  8. BLE connectivity maximizes compatibility with professional and consumer equipment
  9. 24/7 always-on sensor data processing at ultra-low power consumption

Packages Includes:

1 x Arduino Nicla Sense ME

While the news-breaking launch of the Raspberry Pi Pico is still fresh in our minds, here is another launch of a tiny but powerful development board in the world of microcontroller boards on the footprint of Raspberry Pi  Pico from Arduino officials.

Arduino Nano RP2040 Connect with Header

Arduino named it “Arduino Nano RP2040 Connect” a newly launched Microcontroller board welcoming the Raspberry Pi’s RP2040chip on which NANO connect has been built. The Arduino Nano RP2040 Connect shares a similar form factor to the Raspberry Pi Pico, but it includes extra functionality, chiefly WiFi and Bluetooth along with a 9-axis IMU sensor and microphone.

Arduino also broke the news that they will be porting the Arduino IDE for use with the RP2040 chip. This is welcome news for C/C++ developers and embedded hobbyists alike.

 

 


Features and Specifications:

Raspberry Pi RP2040 Microcontroller:
  1. 133MHz 32bit Dual Core Arm Cortex-M0+
  2. 264kB on-chip SRAM
  3. Direct Memory Access (DMA) controller
  4. Support for up to 16MB of off-chip Flash memory via dedicated QSPI bus
  5. USB 1.1 controller and PHY, with host and device support
  6. 8 PIO state machines
  7. Programmable IO (PIO) for extended peripheral support
  8. 4 channel ADC with internal temperature sensor, 0.5 MSa/s, 12-bit conversion
  9. SWD Debugging
  10. 2 on-chip PLLs to generate USB and core clock
  11. 40nm process node
  12. Multiple low power mode support
  13. USB 1.1 Host/Device
  14. Internal Voltage Regulator to supply the core voltage
  15. Advanced High-performance Bus (AHB)/Advanced Peripheral Bus (APB)
U-blox® Nina W102 WiFi/Bluetooth Module:
  1. 240MHz 32bit Dual Core Xtensa LX6
  2. 520kB on-chip SRAM
  3. 448 Kbyte ROM for booting and core functions
  4. 16 Mbit FLASH for code storage including hardware encryption to protect programs
    and data
  5. 1 kbit EFUSE (non-erasable memory) for MAC addresses, module configuration,
  6. Flash-Encryption, and Chip-ID
  7. IEEE 802.11b/g/n single-band 2.4 GHz WiFi operation
  8. Bluetooth 4.2
  9. Integrated Planar Inverted-F Antenna (PIFA)
  10. 4x 12-bit ADC
  11. 3x I2C, SDIO, CAN, QSPI
Memory:
  1. AT25SF128A 16MB NOR Flash
  2. QSPI data transfer rate up to 532Mbps
  3. 100K program/erase cycles

For the detailed description of the product Please go through the datasheet in the attachments.


Package Includes:

1 x Arduino Nano RP2040 Connect with Header


For Arduino, Nano RP2040 Connect without Header Click Here

Weight
DimensionsN/AN/AN/AN/AN/AN/A
Additional information
Microcontroller

nRF52840

Digital input

6 x edge-sensitive wake-up pins

Digital Output

8 x latching relay command outputs with drivers 8 x latching relay command outputs without drivers

Relays

4 x 60V/2.5A galvanically isolated solid-state relays

Analog input

4 x 4-20 mA inputs 8 x 0-5v analog inputs 16 x hydrostatic watermark sensor input

Terminal Block Connectors

6 x 18 pin plug-in terminal block connector

Power Supply

12 V Acid/Lead SLA Battery Supply (Recharged via solar panels)

Power Consumption

Low Power (up to 34 months on a 12v/5Ah battery) 200uA Sleep Current

Memory

1 MB onboard Flash memory 2 MB onboard QSPI Flash memory

Connectivity

Bluetooth Wifi 3G NB-IOT LoRaWAN

Peripherals

Full-speed 12 Mbps USB Arm cryptoCell CC310 security subsystem QSPI/SPI/TWI/PDM/QDEC High speed 32 MHz SPI Quad SPI interface 32 MHz 12-bit 200 ksps ADC

Operating Temperature Range (°C)

-40 to 85

Length (mm)

104

Width (mm)

86

Model Type

Arduino Nano 33 IOT with Header

Microcontroller

SAMD21 Cortex-M0+ 32bit low power ARM

Radio module

u-blox NINA-W102

Secure Element

ATECC608A

IMU

LSM6DS3

Operating Voltage (VDC)

3.3

Analog I/O Pins

Input Pins 8 : (ADC 8/10/12 bit), Output Pins : 1 (DAC 10 bit)

Digital I/O Pins

14

PWM Output Pins

11 (2, 3, 5, 6, 9, 10, 11, 12, 16 / A2, 17 / A3, 19 / A5)

Clock Speed

48MHz

DC Current per I/O Pin (mA)

7

Flash Memory

256 KB

EEPROM

None

SRAM

32

Length (mm)

45

Width (mm)

18

Height (mm)

5

Weight (gm)

5

Model Type

Nano 33 IOT

Microcontroller

SAMD21 Cortex-M0+ 32bit low power ARM

Radio module

u-blox NINA-W102

Secure Element

ATECC608A

IMU

LSM6DS3

Operating Voltage (VDC)

3.3

Analog I/O Pins

Input Pins 8 : (ADC 8/10/12 bit), Output Pins : 1 (DAC 10 bit)

Digital I/O Pins

14

PWM Output Pins

11 (2, 3, 5, 6, 9, 10, 11, 12, 16 / A2, 17 / A3, 19 / A5)

Clock Speed

48MHz

DC Current per I/O Pin (mA)

7

Flash Memory

256 KB

EEPROM

None

SRAM

32

Length (mm)

45

Width (mm)

18

Height (mm)

5

Weight (gm)

5

Microcontroller

ATMage4809

Operating Voltage(V)

5V

VIN MIN-MAX

7-21V

DC Current per I/O Pin (mA)

20

DC Current for 3.3V Pin (mA)

50

Clock Speed

20 MHz

CPU Flash Memory

48KB

SRAM

6KB

EEPROM

256byte (ATMega4809)

PWM PINS

5 (D3, D5, D6, D9, D10)

UART

1

SPI

1

12C

1

Analog I/O Pins

Input Pins 8 (ADC 10 bit), Out put Only through PWM (no DAC)

EXTERNAL INTERRUPTS

all digital pins

On Board LEDs

13

USB

Uses the ATSAMD11D14A

Length (mm)

45 mm

Width (mm)

18 mm

Height (mm)

2

Weight (g)

5 gr (with headers)

Microcontroller

64 MHz Arm® Cortex M4 (nRF52832)

Sensors

& humidity sensor with AI, BHI260AP – Self-learning AI smart sensor with, BME688 – Digital low power gas, pressure, temperature, Digital pressure sensor, BMM150 – Geomagnetic sensor, integrated accelerometer and gyroscope, BMP390 –

I/O Ports

(with ext. ESLOV connector), 1x serial port, 1x SPI, 2x ADC, programmable I/O voltage from 1.8-3.3V, Castellated pins with the following features: 1x I2C bus

Connectivity

Bluetooth® 4.2

Operating Power

Micro USB (USB-B), Pin Header, 3.7V Li-po battery with Integrated battery charger

Memory

2MB QSPI dedicated for BHI260AP, 512KB Flash / 64KB RAM, 2MB SPI Flash for storage

Interface

USB interface with debug functionality

Dimensions (mm) LxWxH

22, 86 mm x 22, 86 mm

Weight (g)

2 g