Powerful Device Networking & Embedded Web Server in a Deployment-Ready Chip
A member of the DeviceLinx XChip family of networking system-on-chip solutions, the XChip SoC is a turnkey and application-bundled co-processor for device networking. It delivers the same high-performance connectivity and web server capabilities as the marketleading XPort embedded device server module. Manufacturers of high-volume, price-sensitive products can now rapidly and affordably offer networking, complete with built-in web server for remote monitoring and control, as a standard feature on virtually any product with a serial interface on its microcontroller.
Highly-integrated Networking Co-Processor
Fabricated using an industry-standard CMOS process, the XChip is a highly-integrated x86-class processor that includes a built in Ethernet MAC and 10-100 PHY, 256 KB zero wait-state SRAM, up to 3 GPIOs and a high-performance serial UART in a compact 12mm x 12mm 184 BGA RoHS-compliant, industrial temperature package.
Simply connect the serial port to the XChip and load the royalty free standard application and network protocol firmware in an external Flash chip. Finish by adding an RJ45 jack and magnetics to instantly connect virtually any product to an Ethernet network or the Internet and serve web pages!
A dedicated networking co-processor, it enables the host microcontroller to function at maximum capacity without the computing burdens of network and web serve processing. Serial data from the device’s host microcontroller’s CMOS logic-level serial port is packetized and delivered over an Ethernet network via TCP or UDP data packets. Similarly, incoming TCP or UDP packets are packaged and sent to the attached device over its microcontroller’s serial interface. This enables OEMs to use less expensive, less powerful host microcontrollers on their products without sacrificing performance.
Feature-rich, Royalty-free Application and Network Protocol Firmware
XChip comes with a robust, licensed networking and applications firmware binary, so virtually zero programming is required. Powered by the same firmware already deployed in millions of networked nodes, this networking co-processor makes it easy to design-in connectivity and significantly speed time-to-market. The application ready networking firmware and a feature-rich network protocol stack includes TCP/IP, UDP, BootP, DHCP and AutoIP. It also features a variety of configurable options for serial-to-Ethernet tunneling (baud rate, flow control, port number, data packing control intervals, inactivity timeout and MTU size). It can trigger email alerts on in-band serial data patterns or configurable pins inputs. Optional 256-bit AES (Rijndael) end-to-end encryption is available.
Ideal for High-Volume Applications
With its low cost, small size and powerful feature set, XChip is an ideal solution for high-volume, cost sensitive products.
- Consumer electronics
- Energy/metering applications
- Point of sale (POS) products
- White/durable goods
- Building automation (lighting, etc.)
- Home automation (high-end audio, alarm panels, etc.)
- RFID readers
- Sensors and controllers
- Vending machines
Complete Hardware Reference Design Package
XChip comes complete with a compact, 4-layer reference design optimized for cost, compliance and performance.
- Gerber File (RS-274-X)
- PADS PCB design file (PADS2005 Spac 2)
- Schematic and assembly diagram (PDF and DSN)
- Fabrication drawing
- Design Integration Guide
Additional Software Utilities for Easy Configuration & Network Deployment
Deploying products in volume on a network typically require additional Windows software to simplify implementation. Dynamic Host Protocol Support (DHCP) and additional IP configuration methods included with XChip’s Windows®-based DeviceInstaller software streamline device deployment and network initiation.
Additionally, the included Com Port Redirector (CPR) software maps “virtual COM” ports on a PC platform and redirects application data destined for an attached device. Rather than going out the local COM port, the data is transmitted across the Ethernet network to and from the XChip using TCP/IP.