M-DUINO PLC ARDUINO LoRa 53ARR
M-DUINO PLC ARDUINO LoRa 53ARR
LoRa Applications and Markets
What is LoRa used for?
The LoRa Technology is Connecting Smart solutions
This controller with LoRa and based on Arduino will allow you to work with a huge catalog of Internet of Things (IoT) applications.
The LoRaWAN protocol together with the LoRa devices can apply in all kind of sectors and solutions like:
Inputs, Outputs, Communications and other technical specifications
Inputs (Arduino Mega included)
(x14) Analog (0-10Vdc) / Digital (5-24Vdc) configurable by software.
(x10) Digital Isolated (5-24Vdc) (5 of which can work as Interrupt).
– (1x) Ethernet port.
- (1x) LoRa. 2 different selectable options: 868MHZ to Europe and 915MHz to America
– (1x) USB port (type B).
– (1x) I2C port. (Interface with other Industrial Shields, sensors, I/Os modules)
– (3x) TTL ports.
– (1x) RS-232 port.
– (1x) HALF/FULL Duplex RS-485 port.
– (1x) SPI external port (Using MOSI,MISO, SS pins of Arduino)
– TCP IP / Modbus TCP. / Modbus RTU
– WebServer capacity
– Industrial Protocols
Outputs (Arduino Mega included)
(x6) Digital Isolated (5-24Vdc) / (0-10Vdc) configurable by switch.
(x5) Digital Isolated (5-24Vdc)
(x15) Relay Output (220Vac - 5A)
Other technical specifications
RTC (Real Time Clock. NOTE: I2C port used. See pinout modification)
µSD Socket (using SPI port, chip select D53 pin).
DIN Rail mounting.
Max consum.: 1.2A
Flash Memory: 256kB (8kB for bootloader)
Clock Speed: 16MHz
*Rx,Tx pins are not abailable using RS485. For SPI you need to choose another pin for Select Function (You can choose, SDA, SCL, Rx, Tx, Pins of Arduino)
Lora Arduino PLC details
Industrial Automation, Monitoring and Control
This is the first equipment based on the Arduino technology designed for a professional use. This PLC has 50I/Os. It also contains several communication ports which provide more flexibility and control. The M-DUINO family offers the possibility to expand up to 127 modules through I2C, which means that you can have until 7100 Inputs / Outputs in Master-Slave connections, additionally to sensors, etc…
This PLC can be programmed using the Arduino IDE platform. See the Documentation menu below to download the software for free.
Instantaneous connection and coding
The PLC M-DUINO is programmed through the USB ports. This PLC can also be programed through Ethernet port remotely. This offers and immediate access to program, mantain and control. Also you can continuously monitor the status for all the variables, inputs, outputs, etc. It is compatible with the Arbosx and the Touchberry Pi with instantaneous connection.
|Total Digital Optoisolated Inputs (5-24Vdc)||10|
|Digital Optoisolated Inputs (5-24Vdc)||5|
|Digital Optoisolated Inputs (5-24Vdc) | can work like interrupt Inputs INT (5-24Vdc)||5|
|10 bit Analog Inputs (0-10V) | Digital (5-24Vdc) Inputs configurable by software||14|
|Digital Optoisolated Outputs (5-24Vdc)||5|
|Digital Optoisolated and PWM (5-24Vdc) | 8 bit Analog (0-10V) Outputs configurable by switch||6|
|Relay Outputs (220Vac - 5A)||15|
|Wi-Fi & BLE (Bluetooth Low Energy)||NO|
|USB port (type B) communication (for uploading or debugging only)||1|
|Micro USB port (type B) communication (for uploading or debugging only)||0|
|I2C communication (interface with other Industrial Shields, sensors, I/Os modules)||1|
|Serial TTL (UART) communication||3|
|Half/Full Duplex RS-485 communication||1|
|SPI external port communication (using MOSI, MISO, SS pins of Arduino)||1|
|RTC (Real Time Clock. NOTE: I2C port used. See pinout modification)||YES|
|µSD Socket (using SPI port, chip select D53 pin)||YES|
The Open Source Board CPU ▼
|Single Board Computer (SBC) Microcontroller||Arduino Mega Original Board (ATmega 2560)|
|Flash Memory (KB)||256|
|Flash Memory of which used by bootloader (KB)||8|
|Clock Speed (MHz)||16|
Certification & Safety ▼
|Conformity with Health, Safety, and Environmental Protection (CE)||EN61010-1 | EN61010-2-201 | EN61131-2:2007 (Clause 8: Zone A/B EMC and clause 11:LVD) | EN61000-6-4:2007 + A1 2011 (Emissions) | EN 61000-6-2:2005 (Immunity)|
|Medical Devices Directive (CE)||93/42/EEC|
|FCC Federal Code of Regulation (CFR) for Electronic Equipment||EMC:FCC Part 15|
|RoHS||Directive 2002/95/EC | Restriction of Hazardous Substances (EEE)|
Other information ▼
|DIN Rail mounting|
|Power Supply Voltage (Vdc) Range||12-24|
|Power Consumption (VAC max.)||30|
|Operating Temperture ºC||0ºC-60ºC|
|Operating Temperature ºF||32ºF-140ºF|
|Operating Relative Humidity % (no condensation)||10%-90%|
|Package Size||13cm x 14cm x 13cm|
|740.17 Language - 740.17 (b)(1) for self-classification or (b)(3) CCATS issued||§740.17 (b)(1)|
|Country of Origin||Spain|
|Moisture Sensitivity Level (MSL)||MSL 1 - Unlimited|
|RoHS Compliant by Exemption?||NO|
|Does Part Contain Lithium?||YES|
|Product Weight||599g. max.|
Other Technical Specifications: *Rx,Tx pins are not available using RS485. For SPI you need to choose another pin for Select Function (You can choose, SDA, SCL, Rx, Tx, Pins of Arduino).
How to start ▼
|1. Download the open-source software "Arduino IDE" version 1.8.0 or higher and open it.|
|2. Click on "File" and then on "Preferences".|
|3. See the "Additional Boards Manager URLs:" text box inside the "Settings" tab and add this URL: http://apps.industrialshields.com/main/arduino/boards/package_industrialshields_index.json|
|4. Close the preferences window with the “Ok” button.|
|5. Click on “Tools” menu , and open the “Boards” submenu, and click the “Boards Manager” option, to open the Boards Manager window.|
|6. Search “industrialshields” to the search filter and select to the list and click “Install” or "Update" if you have not got the latest version.|
|7. Close the "Boards Manager". Now you can select each of our PLCs by clicking on "Tools", then "Board", then "Industrial Shields Boards" and select your family of PLCs. Contact [email protected] if you have any questions."|