The T507-H is a high-performance embedded processor from Allwinner Technology, optimized for industrial and automotive applications. Based on the ARM Cortex-A53 multi-core architecture, it enhances computing power, stability, and expandability compared to the standard T507. The T507-H typically features higher clock speeds, improved reliability, and a wider operating temperature range, making it suitable for long-term operation in harsh environments.
Beilai Technology’s ARMxy Industrial Embedded Computer BL340 adopts the T507-H processor, offering configurable ROM/RAM and I/O expansion options.
CPU
Quad-core ARM Cortex-A53 (up to 1.8GHz+, some models support dynamic frequency scaling).
Supports 64-bit instruction set, optimized for multitasking.
GPU
Integrated Mali-T860 MP2/MP4, supporting OpenGL ES 3.2/2.0, Vulkan 1.0 for 2D/3D graphics rendering.
Multimedia Processing
4K@30fps H.265/H.264 encoding/decoding, supports multi-channel video input (e.g., dual MIPI-CSI cameras).
High-definition display output (HDMI 2.0, LVDS, RGB interface, supports dual-screen display).
Memory & Storage
Supports LPDDR4/LPDDR3 (up to 4GB), eMMC 5.1, and expandable SDIO 3.0 storage.
Peripheral Interfaces
High-speed communication: USB 3.0/2.0, Gigabit Ethernet (with TSN support for real-time industrial communication).
Industrial-grade interfaces: CAN 2.0B, SPI, I2C, UART, PWM, GPIO, etc., suitable for industrial control.
Expandability: Optional PCIe 2.0, SATA 3.0 (in some models).
Enhanced Reliability
Wide operating temperature range (-40°C to +85°C), meeting industrial/automotive standards.
Supports ECC memory (in some models) for improved data integrity.
Automotive Electronics (Automotive-Grade Applications)
Smart cockpit systems (infotainment displays, digital dashboards, rear-seat entertainment).
Vehicle telematics (T-Box, ADAS auxiliary displays).
Advantages: Strong anti-interference, supports multi-screen interaction and automotive buses (CAN/CAN FD).
Industrial Automation & Control
Industrial HMIs (Human-Machine Interfaces), PLC controllers.
Machine vision (e.g., AOI inspection, barcode recognition), leveraging multi-camera input.
Advantages: Stable operation in high-temperature/humidity environments, supports real-time Linux or RTOS.
Smart Retail & Commercial Devices
Digital signage, self-service kiosks, smart POS terminals.
Advantages: Mature solutions for 4K video playback and touch interaction.
Edge Computing & Lightweight AI
Face recognition gates, intelligent security systems (with external NPU/GPU acceleration).
Limitation: Limited AI performance without an NPU (e.g., requires external AX620A).
Energy & Power Monitoring
Power gateways, smart meters, relying on CAN/RS485 communication and low-power design.
| Advantages | Limitations |
|---|---|
| ✅ Industrial-grade reliability (wide temp range, long lifespan) | ❌ No built-in NPU (AI relies on external modules) |
| ✅ Rich peripherals (CAN, PCIe, multi-display support) | ❌ Insufficient for high-performance computing (e.g., autonomous driving) |
| ✅ Low power consumption (3~5W typical, fanless design) | ❌ Limited BSP support, depends on vendor SDK |
| ✅ Cost-effective, alternative to Renesas/NXP solutions | ❌ Limited memory bandwidth, not ideal for big data processing |
The T507-H targets mid-to-high-end industrial and automotive markets, excelling in multitasking, multimedia interaction, and harsh environment adaptability. It is ideal for applications requiring long-term stable operation and multi-interface expansion.
Recommended for: Automotive IVI, Industrial HMIs, smart terminals.
Not recommended for: High-performance AI computing, ultra-real-time control (requires FPGA or dedicated chips).
