xPico 240 Wi-Fi 4 & 100Base Ethernet LGA Module
- Technology
- Wi-Fi and Bluetooth modules
- Partner
- Lantronix
The xPico® 240 is a compact, production-ready embedded IoT gateway designed to accelerate OEM development for industrial applications. It features dual-band Wi-Fi with antenna diversity, enterprise-grade security, and robust wireless performance, even in harsh environments. With no need for complex driver development, it simplifies the integration of Ethernet and Wi-Fi connectivity.
Powered by a built-in network communications engine, the xPico 240 can operate as a network co-processor or a standalone wireless MCU with the included SDK. It supports TruPort® Serial and TruPort® Socket for protocol pass-through and secure connection management over TCP, UDP, and TLS. Configuration is flexible via host commands, APIs, or XML.
Security is ensured with the Infinishield™ suite, offering secure boot, encrypted storage, FOTA updates, and access control. The module is also fully integrated with Lantronix Percepxion™, enabling secure, scalable cloud-based device management and remote updates—ideal for large, distributed IoT deployments.

Range features
A high level overview of what this range offers
- Dual-band Wi-Fi with antenna diversity for robust wireless performance in industrial environments
- Enterprise-grade Wi-Fi security and advanced connectivity management
- Compact SMT footprint ideal for space-constrained and harsh environments
- Built-in network communications engine for quick integration and faster time-to-market
- Operates as a network co-processor or standalone wireless microcontroller (SDK provided)
- TruPort® Serial & Socket for seamless protocol bridging and secure TCP/UDP/TLS connections
- Flexible control via host command mode, Web Service APIs, or XML configuration
- Infinishield™ security suite: secure boot, encrypted data-at-rest, FOTA, access control
- Integrated with Lantronix Percepxion™ cloud for centralized remote device management
- Supports secure, scalable deployment and maintenance across large IoT networks