PLC ARDUINO ARDBOX Analog & DALI
PLC ARDUINO ARDBOX Analog & DALI
Arduino PLC based details
Industrial Automation
Arduino-based PLC
It has 20 digital inputs / outputs. 10x analog or digital inputs (see specifications), and 10x digital or analog output (see specifications).
Basic Controller's family offers the possibility of communication between two computers using I2C, obtaining a master-slave connection.
Instant connection and programming
The Basic Controllers family, as it uses an Arduino LEONARDO, lets you program it through the USB. This feature lets immediate access in order to program, maintain and prepare it for its set up. It lets you control your equipment without no limits.
Standardized modules
The different Basic Controllers devices are programmed exactly on the same way. Once you have used one of them, the rest can be configured using the same methodology.
Expandable
Using the I2C connection, that all the Basic Controller's family have, you can connect up to 127 modules, which it means that you can have up to 2.540 Input / Outputs in Master Slave connection. NOTE: for I2C, you need to tell us that requirement.
Flexible and dynamic
All the components are configurable, both configure like make your jobs as Master or Slave when used on Master-Slave connection through I2C.
Inputs ▼
Total Inputs | 10 |
Total Digital Optoisolated Inputs (5-24Vdc) | 2 |
Digital Optoisolated Inputs (5-24Vdc) | 1 |
Digital Optoisolated Inputs (5-24Vdc) | can work like interrupt Inputs INT (5-24Vdc) | 1 |
10 bit Analog Inputs (0-10V) | Digital (5-24Vdc) Inputs configurable by software | 8 |
Outputs ▼
Total Outputs | 10 |
Digital Optoisolated Outputs (5-24Vdc) | 3 |
Digital Optoisolated and PWM (5-24Vdc) | 8 bit Analog (0-10V) Outputs configurable by switch | 7 |
Relay Outputs (220Vac - 5A) | 0 |
Communications ▼
Ethernet communication | NO |
Wi-Fi & BLE (Bluetooth Low Energy) | NO |
GPRS/GSM | NO |
LoRa | NO |
DALI | YES |
USB port (type B) communication (for uploading or debugging only) | 0 |
Micro USB port (type B) communication (for uploading or debugging only) | 1 |
I2C communication (interface with other Industrial Shields, sensors, I/Os modules) | 1 |
Serial TTL (UART) communication | 0 |
RS-232 communication | 1 |
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) | NO |
µSD Socket (using SPI port, chip select D53 pin) | NO |
The Open Source Board CPU ▼
Single Board Computer (SBC) Microcontroller | Arduino Leonardo Original Board (ATmega32u4) |
Flash Memory (KB) | 32 |
Flash Memory of which used by bootloader (KB) | 4 |
SRAM (KB) | 2,5 |
EEPROM (KB) | 1 |
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 ▼
PLC measures | 100x45x115 |
DIN Rail mounting | |
Max. consum. | 1.5A |
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 8cm |
Packaging | Box |
ECCN Number | EAR99H |
HTS Code | 8537.10.10.90 |
740.17 Language - 740.17 (b)(1) for self-classification or (b)(3) CCATS issued | §740.17 (b)(1) |
Country of Origin | Spain |
STATIC Sensitive | NO |
Moisture Sensitivity Level (MSL) | MSL 1 - Unlimited |
Lead Free | |
RoHS Compliant by Exemption? | NO |
Does Part Contain Lithium? | NO |
Product Weight | 321g. |
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. Descarga la versión 1.8.0 o superior del software de código abierto "Arduino IDE" y abrelo. |
2. Haz clic en "Archivo" y después en "Preferencias". |
3. Mira el cuadro de texto "URL adicionales del administrador de tableros:" dentro de la pestaña "Configuración" y agrega esta URL: http://apps.industrialshields.com/main/arduino/boards/package_industrialshields_index.json |
4. Cierra la pestaña de Preferencias con el botón de "Ok” . |
5. Haz clic en el menú “Herramientas”, y abre el submenú“Placas”, y haz clic en la opción “Administrador de placas”, para abrir la ventana de Administrador de Placas. |
6. Busca “industrialshields” en el filtro de búsqueda y selecciona la lista y haz clic en “Instalar” o "Actualizar" si no tienes la última versión. |
7. Cierra el "Administrador de tableros". Ahora puedes seleccionar cada uno de nuestros PLC haciendo clic en "Herramientas", luego en "Placa", luego en "Placas Industrial Shields" y selecciona tu familia de PLC. Ponte en contacto con [email protected] si tienes alguna pregunta". |