Industry’s first commercial eSPI to LPC bridge preserves legacy Low Pin Count (LPC) investments

by donpedro

Microchip announces the industry’s first commercially available eSPI-to-LPC bridge. The ECE1200 bridge allows developers to implement the eSPI standard in boards with legacy LPC connectors and peripherals. This allows the developers to implement the eSPI standard while preserving large investments in legacy LPC equipment and substantially minimising development costs and risk.

Product longevity is critical in industrial computing equipment applications because of the significant upfront investment required. The ECE1200 eSPI-to-LPC bridge allows developers to maintain long lifecycles while supporting the eSPI bus technology that is required for new computing applications using the next generation of chipsets and CPUs. To reduce risk for developers, the eSPI bus technology has been through intensive validation for industrial computing applications and has been validated with leading processor companies.

Designed for today’s eSPI requirements, the ECE1200 detects and supports Modern Standby mode with low standby current. This helps industrial computing developers to manage operating costs and efficiencies, while maintaining the features end users expect from modern devices. The ECE1200 is simple to implement and does not require any software.

To streamline development, the ECE1200 comes with a BIOS porting guide, schematics and a layout guide.

The ECE1200-I/LD is available today in a 40-pin VQFN package.

For more information, visit: ECE1200 bridge

Key Facts:

  • Enables industrial computing developers to integrate the eSPI standard in existing equipment
  • Minimises development costs and extends product lifecycles
  • eSPI bus technology supports new computing with next-generation chipsets and CPUs
  • Modern Standby mode is combined with simple implementation and no software required

Microchip Technology |

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