SLVAFM0 September   2023 TPS50601A-SP , TPS73801-SEP , TPS7H1101A-SP , TPS7H3301-SP , TPS7H3302-SEP , TPS7H4001-SP , TPS7H4003-SEP , TPS7H4010-SEP , TPS7H5001-SP

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
  5. 2Space Qualification Flow Overview
  6. 3Space Rated Power Devices
  7. 4Example Power Maps
    1. 4.1 Rad-Hard Power for PolarFire
    2. 4.2 Rad-Tolerant Power for PolarFire
  8. 5Conclusion
  9. 6References

Introduction

Architectural advancements continue to be developed in FPGAs with the growing need for more on-board processing and re-programmability in space applications. As such, Microchip's RT PolarFire FPGA has seen a wide use in different satellite payloads. As new FPGAs are developed, the power requirements have continued to evolve requiring the need for higher currents, and lower voltages. The designs that power the PolarFire must be able to meet these increased requirements and be resilient to withstand the harsh environment of space.

This application note reviews two product grades TI offers with proven radiation performance and provides a selection guide for comparing the different power management devices within each flow. The report also covers the value the space grade power management portfolio brings to the overall system, and provides example power maps for both rad-hard and rad-tolerant implementations.