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Homepage>BS Standards>49 AIRCRAFT AND SPACE VEHICLE ENGINEERING>49.140 Space systems and operations>PD CEN/TR 17602-60-02:2021 Space product assurance. Techniques for radiation effects mitigation in ASICs and FPGAs handbook
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PD CEN/TR 17602-60-02:2021 Space product assurance. Techniques for radiation effects mitigation in ASICs and FPGAs handbook

PD CEN/TR 17602-60-02:2021

Space product assurance. Techniques for radiation effects mitigation in ASICs and FPGAs handbook

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Standard number:PD CEN/TR 17602-60-02:2021
Pages:238
Released:2022-05-18
ISBN:978 0 539 18733 5
Status:Standard
PD CEN/TR 17602-60-02:2021 Space product assurance. Techniques for radiation effects mitigation in ASICs and FPGAs handbook

PD CEN/TR 17602-60-02:2021 Space Product Assurance: Techniques for Radiation Effects Mitigation in ASICs and FPGAs Handbook

Standard Number: PD CEN/TR 17602-60-02:2021

Pages: 238

Released: 2022-05-18

ISBN: 978 0 539 18733 5

Status: Standard

Overview

In the ever-evolving field of space technology, ensuring the reliability and robustness of electronic components is paramount. The PD CEN/TR 17602-60-02:2021 Space Product Assurance: Techniques for Radiation Effects Mitigation in ASICs and FPGAs Handbook is an essential resource for professionals in the aerospace industry. This comprehensive handbook provides detailed methodologies and techniques to mitigate radiation effects in Application-Specific Integrated Circuits (ASICs) and Field-Programmable Gate Arrays (FPGAs), which are critical components in space missions.

Why This Handbook is Essential

Space environments are harsh and unpredictable, with high levels of radiation that can severely impact the performance and longevity of electronic components. This handbook offers a thorough exploration of the challenges posed by radiation and presents practical solutions to enhance the resilience of ASICs and FPGAs. By implementing the techniques outlined in this handbook, engineers and designers can significantly improve the reliability of their space-bound systems.

Key Features

  • Comprehensive Coverage: Spanning 238 pages, this handbook covers a wide range of topics related to radiation effects and mitigation techniques.
  • Up-to-Date Information: Released on May 18, 2022, it includes the latest research and advancements in the field.
  • Standardized Guidelines: As a recognized standard, it provides authoritative and standardized guidelines that are widely accepted in the industry.
  • Practical Techniques: Offers practical, actionable techniques that can be directly applied to the design and development of space-grade ASICs and FPGAs.
  • Expert Insights: Compiled by leading experts in the field, ensuring that the information is both accurate and relevant.

Who Should Use This Handbook?

This handbook is an invaluable resource for a wide range of professionals, including:

  • Aerospace Engineers: Engineers involved in the design and development of space systems will find this handbook particularly useful for ensuring the reliability of their electronic components.
  • Research Scientists: Scientists conducting research on radiation effects and mitigation techniques will benefit from the comprehensive data and methodologies presented.
  • Quality Assurance Specialists: Professionals responsible for the quality and reliability of space products will gain insights into best practices for radiation mitigation.
  • Students and Academics: Those studying aerospace engineering or related fields will find this handbook to be an excellent reference for understanding the challenges and solutions in radiation effects mitigation.

Detailed Content

The handbook is meticulously organized to provide a logical flow of information, making it easy to navigate and understand. Key sections include:

  • Introduction to Radiation Effects: An overview of the types of radiation encountered in space and their potential impacts on electronic components.
  • Mitigation Techniques: Detailed descriptions of various techniques to mitigate radiation effects, including shielding, error correction, and redundancy.
  • Design Considerations: Guidelines for designing ASICs and FPGAs with radiation mitigation in mind, including material selection and layout strategies.
  • Testing and Validation: Methods for testing and validating the effectiveness of radiation mitigation techniques in real-world scenarios.
  • Case Studies: Real-world examples and case studies that illustrate the successful application of the techniques discussed.

Benefits of Using This Handbook

By incorporating the techniques and guidelines presented in this handbook, professionals can achieve several key benefits:

  • Enhanced Reliability: Improve the reliability and longevity of electronic components in space environments.
  • Cost Savings: Reduce the risk of component failure, leading to cost savings in terms of repairs and replacements.
  • Increased Mission Success: Enhance the overall success rate of space missions by ensuring that critical components perform as expected.
  • Compliance with Standards: Ensure compliance with industry standards and best practices, which is crucial for obtaining certifications and approvals.

Conclusion

The PD CEN/TR 17602-60-02:2021 Space Product Assurance: Techniques for Radiation Effects Mitigation in ASICs and FPGAs Handbook is an indispensable tool for anyone involved in the design, development, and assurance of space-grade electronic components. With its comprehensive coverage, practical techniques, and expert insights, this handbook provides the knowledge and guidance needed to tackle the challenges of radiation effects in space environments. Whether you are an engineer, researcher, quality assurance specialist, or student, this handbook will equip you with the tools and techniques necessary to ensure the success and reliability of your space missions.

DESCRIPTION

PD CEN/TR 17602-60-02:2021


This standard PD CEN/TR 17602-60-02:2021 Space product assurance. Techniques for radiation effects mitigation in ASICs and FPGAs handbook is classified in these ICS categories:
  • 49.140 Space systems and operations
This handbook provides a compilation of different techniques that can be used to mitigate the adverse effects of radiation in integrated circuits (ICs), with almost exclusive attention to Application Specific Integrated Circuits (ASICs) and Field Programmable Gate Arrays (FPGAs) to be used in space, and excluding other ICs like power devices, MMIC or sensors. The target users of this handbook are developers and users of ICs which are meant to be used in a radiation environment. Following a bottom-up order, the techniques are presented according to the different stages of an IC development flow where they can be applied. Therefore, users of this handbook can be IC engineers involved in the selection, use or development of IC manufacturing processes, IC layouts and ASIC standard cell libraries, analogue and digital circuit designs, FPGAs, embedded memories, embedded software and the immediate electronic system (printed circuit board) containing the IC that can experience the radiation effects. In addition, this handbook contains an overview of the space radiation environment and its effects in semiconductor devices, a section on how to validate the good implementation and effectiveness of the mitigation techniques, and a special section providing some general guidelines to help with the selection of the most adequate mitigation techniques including some examples of typical space project scenarios. The information given in this ECSS Handbook is provided only as guidelines and for reference, and not to be used as requirements. ECSS Standards provide requirements that can be made applicable, while, ECSS Handbooks provide guidelines.