The SMARC Design Guide provides a comprehensive overview of the standard,
including
detailed information on module design and carrier board development, with 134 pages of guidance for developers and manufacturers, updated on April 29, 2021, by SGeT eV, in Munich, Germany.
Overview of SMARC Modules
SMARC modules are specifically designed for the development of extremely compact low-power systems, such as mobile devices. The modules are designed to be highly integrated, with a focus on minimizing size and power consumption. This makes them ideal for use in a wide range of applications, from industrial automation to medical devices.
The SMARC module standard is designed to be highly flexible, with a range of options for display interfaces, networking, and other features. This allows developers to create customized solutions that meet the specific needs of their application.
SMARC modules are also designed to be highly reliable, with a focus on ensuring robust and reliable operation in a wide range of environments. This makes them ideal for use in applications where downtime or failure is not acceptable.
Overall, SMARC modules offer a highly integrated and flexible solution for developers looking to create compact and reliable systems. With their small size, low power consumption, and high level of integration, they are ideal for use in a wide range of applications.
SMARC modules are widely used in various industries, including industrial automation, medical devices, and transportation systems, due to their compact size and low power consumption.
Key Features of SMARC Design Guide 2.1.1
The SMARC Design Guide 2.1.1 includes new features such as Gigabit Ethernet and USB-C with DisplayPort Alt Mode, providing enhanced interface capabilities for developers and manufacturers, updated on April 29, 2021, with 134 pages.
New Chapter on SerDes Implementations
The SMARC Design Guide 2.1.1 includes a new chapter on SerDes implementations, which provides detailed information on the design and implementation of SerDes interfaces. This chapter is essential for developers and manufacturers who need to understand the requirements and best practices for implementing SerDes signaling in their SMARC-based systems. The new chapter covers topics such as signal integrity, channel modeling, and equalization, as well as the design of SerDes transceivers and receivers. Additionally, the chapter provides examples and case studies of successful SerDes implementations, which can help developers to overcome common challenges and optimize their designs; The inclusion of this new chapter in the SMARC Design Guide 2.1.1 demonstrates the ongoing effort to enhance and improve the standard, and to provide developers with the tools and resources they need to create innovative and effective SMARC-based systems. The SMARC Design Guide 2.1.1 is a comprehensive resource that covers all aspects of SMARC design and implementation, including the new SerDes implementations chapter.
Importance of SMARC Design Guide for Developers
The SMARC Design Guide is crucial for developers, providing essential guidance and resources for creating robust and reliable systems, with updated information and new features, enabling efficient development, in a single document, every time;
Ensuring Robust and Reliable Implementation
The SMARC Design Guide plays a vital role in ensuring robust and reliable implementation of SMARC modules, by providing detailed guidance on module design and carrier board development, with a focus on interface capabilities and power management.
According to the SMARC Design Guide, developers can ensure reliable implementation by following the guidelines and recommendations outlined in the document, which covers various aspects of SMARC module design, including interface capabilities and power management.
The guide also provides updated information on new features and interfaces, such as Gigabit Ethernet over PCIe SerDes signaling and USB-C with full support for features like USB 3.2 Gen1 and DisplayPort Alt Mode, enabling developers to create efficient and reliable systems.
Furthermore, the SMARC Design Guide includes a new chapter on SerDes implementations, providing more examples for fully featured USB-C implementations, including DisplayPort Alt Mode, and updated and extended options for display interfaces, making it easier for developers to ensure robust and reliable implementation.
Overall, the SMARC Design Guide is an essential resource for developers, providing the necessary guidance and information to ensure robust and reliable implementation of SMARC modules, and enabling the creation of efficient and reliable systems.
Future Developments in SMARC Design Guide
Standard Development Team will continue updating the guide after summer, with new features and improvements, enhancing the SMARC specification, for better implementation and development, in the future, with new updates.
Update on SMARC V2.2 and Design Guide
The Standard Development Team is working on updating the SMARC Design Guide to support the new features and interfaces introduced in SMARC V2.2. This update will provide developers with the necessary guidance to design carrier boards that can take full advantage of the new specification. The team will continue their work after the summer break, ensuring that the SMARC Design Guide remains a comprehensive and up-to-date resource for developers. The update will include new chapters and sections, providing detailed information on the implementation of new interfaces and features. The SMARC V2.2 specification introduces several new features, including improved support for USB-C and DisplayPort Alt Mode, as well as enhanced power management capabilities. The updated Design Guide will provide developers with the necessary information to implement these features effectively, ensuring that SMARC modules remain a popular choice for developers of compact and low-power systems. The update is expected to be released soon, and will be available on the SGeT website.