RPI-based Industrial HMI

RPI-based Industrial HMI with an integrated 7-inch Touch Panel.

All-in-one Industrial Controller:

A Raspberry Pi CM4-based powerhouse, seamlessly integrating a 7-inch touch HMI, PLC functionality, and diverse connectivity options including Ethernet and RS-485. Ideal for IoT applications and as an industrial gateway, it’s the perfect blend of performance and versatility for any modern industrial setting

  • A powerful Linux-based industrial pc, based on Raspberry PI CM4 Single board computer.
  • The ability to Panel Mount it and its integrated 7-inch touch panel makes it perfect for HMI Applications.
  • Built-in RS-485, makes it MODBUS Capable and also connects to industrial networks
  • 1Gig Ethernet Port for Faster Backhaul communication
  • Its Built-in Digital Inputs, Analog Inputs, and Transistor Outputs, give it ability to acquire data as well as take actions

Communication

IoT Device with Ethernet

Features

7-Inch Touch Panel

Raspberry PI CM4

RPI-based Industrial HMI

Models of RPI-based Industrial HMI

CPU G1

CPU G2

2GB

64-bit SoC @ 1.5GHz

2GB

64-bit SoC @ 1.5GHz

8

CPU G3

CPU G4

2GB

64-bit SoC @ 1.5GHz

16

4GB

64-bit SoC @ 1.5GHz

32

CPU G5

CPU G6

4GB

64-bit SoC @ 1.5GHz

4GB

64-bit SoC @ 1.5GHz

16

Applications

  • PLC with Touch Panel
  • HMI with Ethernet and RS-485
  • Raspberry PI based HMI
  • Raspberry PI PLC
  • Industrial Raspberry PI
  • Local IoT Server
  • Industrial Gateway

Programming

  • NODE RED
  • Python
  • Code Sys

Why should choose RPI-based Industrial HMI?

  1. Performance: RPI HMI utilizes Raspberry Pi CM4, offering powerful computing capabilities suitable for demanding industrial applications. Whether you’re running complex algorithms, handling large datasets, or running multiple tasks simultaneously, RPI HMI delivers robust performance.

  2. Versatility: This solution seamlessly integrates a 7-inch touch panel, serving as both a user interface and a control system. Its versatility allows it to adapt to various industrial settings, from manufacturing floors to automation processes.

  3. Connectivity: With Ethernet and RS-485 connectivity options, RPI HMI facilitates seamless integration into existing industrial networks. It ensures reliable communication between devices, PLCs, and control systems, enhancing overall operational efficiency.

  4. IoT Applications: RPI HMI is well-suited for IoT applications, enabling data collection, analysis, and remote monitoring. It serves as an industrial gateway, connecting sensors, actuators, and other IoT devices to the cloud or central monitoring systems.

  5. MODBUS Support: Built-in RS-485 support makes RPI HMI MODBUS capable, allowing it to communicate with a wide range of industrial devices and equipment. This ensures compatibility with existing industrial protocols and systems, simplifying integration and deployment.

  6. Panel Mounting: The ability to panel mount RPI HMI enhances its usability in HMI applications. It provides a seamless and ergonomic interface for operators, improving accessibility and user experience in industrial environments.

  7. Digital and Analog Inputs, Transistor Outputs: RPI HMI comes equipped with built-in digital inputs, analog inputs, and transistor outputs, enabling it to acquire data from sensors and peripherals while also controlling external devices. This comprehensive feature set expands its utility across various industrial applications.