Technical specifications indicate the Aubric LED controller functions as a dual-path bridge utilizing both 2.4GHz Wi-Fi and 433MHz RF protocols for operational redundancy. The internal architecture centers on the WB3S module, which integrates a 32-bit MCU to manage Pulse Width Modulation (PWM) signals across three output channels. Standardized testing protocols suggest a maximum current capacity of 4A per channel, supporting a total power throughput of 144W at a 12V DC input or 288W when utilized in 24V DC systems.
Material analysis confirms the use of a compact thermoplastic housing. While this provides a lightweight footprint, the lack of active or passive ventilation requires strict adherence to load limits to prevent thermal degradation of the internal MOSFETs and capacitors. Performance metrics demonstrate that the inclusion of the RF remote provides a localized failover mechanism, maintaining control during instances of network congestion or cloud latency.
Functional feature highlights include:
- Dual-protocol control via Tuya application layer and 433MHz RF signal.
- Compatibility with the Local Tuya integration for localized execution.
- Wide-range voltage support for DC 12V and 24V architectural lighting.
Operational stability is maximized when the unit is installed outside of metal enclosures to maintain signal propagation for the internal 2.4GHz antenna.
To mitigate the risk of cloud-based latency and ensure lighting persists during wide-area network failures, this hardware can be paired with the Smart LED WiFi Controller with RF Remote (2 Pack) to provide an additional layer of RF-based manual override.
This unit is classified within the multi-protocol hubs sector, serving as a specialized interface for low-voltage lighting arrays.
