ASUS IoT Announces Tinker System 3N and Tinker Board 3

ASUS IoT Announces Tinker System 3N and Tinker Board 3

ASUS IoT, a leading global AIoT solution provider, has unveiled Tinker System 3N and Tinker Board 3. Tinker System 3N is an Arm-based fanless embedded computer designed for industrial use, while Tinker Board 3 is a compact single-board computer equipped with a quad-core Arm Cortex-A55 for versatile IoT and smart retail applications. Both devices are tailored to meet diverse vertical applications and industrial demands.

Tinker System 3N

The fanless Tinker System 3N features a quad-core Arm Cortex-A55 processor (Rockchip RK3568) and an Arm Mali-G52 GPU, making it ideal for industrial use. It meets US MIL‑STD‑810H military-grade standards for shock and vibration resilience and operates reliably within a wide temperature range (-40 to 60°C). With a compact size and an extruded aluminium chassis, Tinker System 3N also supports a wide input range (12V to 24V) and includes various protection features to prevent damage. Its customizable I/O interface allows for swift adjustments to suit different requirements, making it perfect for smart factory operations, HMI applications, and outdoor kiosk deployments. Tinker System 3N also includes a built-in neural-processing unit (NPU) for seamless AI integration.

Tinker Board 3

Powered by a 64-bit quad-core Arm Cortex-A55 processor (Rockchip RK3566) and an Arm Mali-G52 GPU, Tinker Board 3 offers enhanced graphics processing and robust data security. It comes with a versatile software suite for quick market deployment, including support for OTA updates, advanced controls, and SDKs for smart retail and healthcare applications. Tinker Board 3 also features an integrated NPU for AI tasks such as object detection, speech recognition, and face recognition, making it suitable for various industrial needs.

Integrated Software and Hardware Solutions

Both Tinker System 3N and Tinker Board 3 integrate advanced software and hardware features to provide a comprehensive solution. This includes an SDK with GPIO API integration for simplified development, power scheduling for energy efficiency, USB device power management for durability, and regular OTA updates for optimal performance.