Industrial-Grade HMI Solution Based on SoM330 (T113-i, Dual-Core Cortex-A7)

In the context of rapidly advancing digital factories and intelligent equipment, industrial-grade Human-Machine Interfaces (HMIs) have become core interactive platforms for manufacturing, building control, mechanical equipment, and energy systems. Enterprises require not only cost-effective display and control platforms but also embedded hardware solutions with high stability, long lifecycle, and rich industrial interfaces.

The embedded platform based on SoM330 (T113-i, Dual-Core Cortex-A7) offers a highly competitive choice for building next-generation industrial HMIs, thanks to its abundant peripherals, low power consumption, high reliability, and comprehensive BSP support from the vendor.

Introduction to SoM330 (T113-i): Designed for Industrial Displays

The SoM330 series core board is powered by the Allwinner T113-i processor, featuring a dual Cortex-A7 architecture with a maximum clock speed of 1.2GHz and an integrated NEON acceleration engine, balancing stability and low power consumption.

Key features include:

✔ Abundant Display Capabilities

• Supports multiple display outputs: RGB, LVDS, MIPI-DSI
• Up to 1080p@60fps hardware display
• Built-in 2D acceleration engine + video decoding unit, easily handling dynamic UIs, animated interfaces, and video playback

✔ Tailored for Industrial Communication

• Integrated 2x CAN and 6x UART
• Rich GPIO, SPI, I2C, PWM resources
• Ideal for device status monitoring, sensor integration, motion control panels, and similar scenarios

✔ High Reliability and Industrial Standards

• Wide temperature support: -20~70°C / -40~85°C (model-dependent)
• ECC memory, power-loss protection, and stable eMMC storage
• Mature Linux/Ubuntu/Buildroot BSP available

By adapting to a dedicated carrier board, SoM330 enables the construction of a highly reliable and scalable industrial-grade HMI platform.

Core Advantages of SoM330 for Industrial HMIs

High Cost-Performance Ratio, Ideal for Mass Production

The T113-i platform features ultra-low power consumption and stable performance, making it suitable for 4.3"~15.6" industrial touchscreens. Compared to traditional ARM9 or early Cortex-A7 solutions, SoM330 delivers stronger graphics rendering capabilities at a lower BOM cost.

Robust Display Drivers, Compatible with Various Industrial Panels

• Direct compatibility with numerous off-the-shelf RGB/LVDS screens
• Support for resistive and capacitive touch
• Graphics acceleration via EGL / OpenGL ES 2.0

Thus, SoM330 is well-suited for applications such as:

• ✔ Industrial production line touchscreens
• ✔ Equipment front-panel displays
• ✔ Smart warehousing and robot interfaces
• ✔ Energy management screens
• ✔ Smart home/building control HMIs

Rich Industrial Interfaces, Reducing Peripheral Conversion Costs

With built-in dual CAN buses and multiple UARTs, SoM330 seamlessly connects to PLCs, inverters, servo controllers, and more, enabling device status monitoring and parameter adjustments.

These features provide inherent advantages in industrial environments:

• CAN: Ideal for industrial control, robotics, and agricultural machinery
• RS485 (via UART expansion): Supports Modbus RTU
• Ethernet: Supports Modbus TCP / MQTT / OPC UA

Efficient Development with Linux / Buildroot / Qt

The vendor provides comprehensive hardware and software resources, including:

• Linux 4.x BSP
• Buildroot SDK
• Qt/Qt Quick graphics libraries
• Complete driver examples (LCD, touch, CAN, UART, etc.)

Development teams can rapidly prototype interfaces, shortening the time-to-market for HMI products.

Reference System Architecture for Industrial HMIs

A typical industrial HMI system based on SoM330 consists of the following components:

Processing Core: SoM330 (T113-i)

• Handles UI rendering, logic control, communication protocols, and data processing

Display Module

• LVDS / RGB screens
• 4.3”~15.6” industrial touchscreens
• I2C capacitive touch (e.g., GT911/FT5x06)

System Interfaces

• CAN0 / CAN1
• RS485 (UART expansion)
• USB Host
• Ethernet
• GPIO control ports

Software Framework

• Linux + Qt HMI framework
• Modbus / CANopen / Custom serial protocols
• MQTT / HTTP/HTTPS / OPC UA
• Local UI + OTA upgrade mechanism

Enclosure and Industrial Design

• Metal housing
• EMC interference resistance
• Wide-temperature operation
• Regulated power supply with surge protection

This architecture supports diverse needs, from device-level HMIs and gateway HMIs to edge-computing HMIs.

Typical Application Scenarios

Mechanical Equipment Operation Panels

For CNC machines, injection molding, packaging, and spraying equipment—used for parameter configuration, alarm display, and process monitoring.

Factory Smart Dashboard Interfaces

Connects sensors and PLCs to display real-time data like temperature/humidity, speed, current, voltage, and operational status.

Energy and Environmental Control Panels

Such as PV inverter screens, energy storage BMS panels, and building HVAC control interfaces.

Smart Home and Building Control

Smart access control, video intercoms, elevator operation panels, and home central control screens.

Agricultural and Transportation Equipment

Agricultural irrigation/feed machinery, sorting systems, and vehicle information terminals.

SoM330's low power consumption and high stability make it particularly popular in small- to medium-sized HMIs.

Development Recommendations for HMIs Based on SoM330

Hardware Carrier Board Design Suggestions

• Prioritize LVDS interfaces for enhanced anti-interference
• Use I2C capacitive touchscreens for easier calibration
• Retain CAN transceivers and RS485 converters
• Include USB Host for USB drive upgrades and peripheral expansion
• Strengthen power filtering and TVS protection

Software Development Suggestions

• Design modern industrial interfaces with Qt/QML
• Leverage hardware acceleration to prevent UI lag
• Separate UI and data threads to avoid blocking
• Implement OTA updates (local/remote)
• Use circular logging to prevent eMMC wear-out

Reliability Design

• Watchdog timer mechanism
• Boot-time self-diagnostics (network/sensors/peripherals)
• Power-loss protection and abnormal restart recovery
• Temperature monitoring with UI degradation modes

Conclusion

SoM330 (T113-i, Dual-A7) is a truly industrial-grade embedded platform tailored for HMIs. Its low power consumption, high stability, rich industrial interfaces, and strong display capabilities make it ideal for 4.3”~15.6” HMI scenarios, while supporting high-volume production.

Whether for equipment operation panels, smart factory interfaces, energy management screens, or building control panels, SoM330 empowers device manufacturers to quickly build reliable, economical, and flexible HMI product ecosystems.