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STMicroelectronics Collaborates with Xilinx to Power Radiation-Hardened FPGAs using ST Space-Qualified Regulators

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STMicroelectronics has announced a collaboration with Xilinx to develop a power solution for the radiation-tolerant FPGA, Xilinx Kintex® UltraScale™ XQRKU060. This partnership utilizes ST's QML-V qualified voltage regulators, enhancing the FPGA's programmability for space applications. The design ensures reliable performance, offering high voltage accuracy and stability against radiation events. The RHRPMPOL01 and RHFL6000A regulators support a voltage range of 0.8V to 12V and provide fast transient response while being resistant to space radiation effects. This innovation aims to reduce development time and costs for future space systems.

Positive
  • Collaboration with Xilinx enhances radiation-tolerant FPGA capabilities.
  • Innovative power solution reduces development time and costs for space systems.
  • Regulators ensure reliable operation in radiation-rich environments.
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  • None.

STMicroelectronics Collaborates with Xilinx to Power Radiation-Hardened FPGAs using ST Space-Qualified Regulators

Geneva, Switzerland, August 25, 2021 – STMicroelectronics (NYSE: STM), a global semiconductor leader serving customers across the spectrum of electronics applications, announced it is collaborating with Xilinx, Inc. to build a power solution for the Xilinx Kintex® UltraScale™ XQRKU060 radiation-tolerant FPGA, leveraging QML-V qualified voltage regulators from ST’s space-products portfolio.

The programmability of the Xilinx XQRKU060 revolutionizes the economics of equipment like space-research instruments and commercial satellites. The device delivers a combination of high compute density and integration that historically required an application-specific IC (ASIC), which typically involves custom design with associated engineering expenses and turnaround time. Unlike an ASIC, the XQRKU060 FPGA can be reconfigured in orbit, allowing bug fixes and updates to be applied cost-effectively at any time to protect the mission.

ST worked closely with Xilinx to design a power source that ensures reliable operation of the XQRKU060 by providing excellent fixed-point voltage accuracy as well as stability in the event of transients due to normal FPGA operation and radiation events. The solution uses ST’s RHRPMPOL01 rad-hard point of load 7A monolithic synchronous step-down regulator and RHFL6000A linear voltage regulator, all SEL immune and QML-V qualified. These devices meet the requirement for an input voltage up to 12V and output voltage down to 0.8V. Both exhibit high fixed-point accuracy with radiation performance that ensures high resistance to Total Ionizing Dose (TID) thereby minimizing any output-voltage drift.

With their fast-transient response, the RHRPMPOL01 and RHFL6000A maintain the regulated output in the event of large and rapid changes in current demand as the FPGA continuously activates and deactivates internal circuitry during normal operation. Their radiation hardness also resists disruption due to single-event transient (SET) radiation encountered in space.

This power solution helps simplify and shorten the development time for next-generation flexible, reprogrammable space systems that leverage the Xilinx XQRKU060 FPGA to benefit from faster project completion, lower mission costs, and greater reliability and fault resilience.

The RHRPMPOL01 (SMD 5962R20208) is a complete point-of-load (PoL) converter that contains an N-channel power MOSFET, bootstrap diode, and system protection. By supporting synchronization and current sharing it can handle demanding loads such as FPGAs, as well as microprocessors and ASICs. The device is Radiation Hardness Assured (RHA) up to 100krad(Si), and Single Event Latch-up (SEL) and Single Event Snap-Back (SESB) free up to 70Mev.cm2/mq. Single-event upset (SEU) and single-event functional interruption (SEFI) are characterized at 7V operating voltage.

The RHFL6000A (SMD 5962F15216) is a low-dropout regulator with adjustable output voltage, built-in protection, and circuitry for remote sensing and external inhibit control. Dedicated internal circuitry for absorbing transients ensures SET below 3.3% of Vout at 120MeV, and the device is SEL-free up to 120Mev.cm2/mq.

Radiation reports for both ST devices are available upon request.

For more information please visit www.st.com/space.

Power estimations will vary greatly with each application. Use Xilinx Power Estimator for accurate power estimations.

About STMicroelectronics
At ST, we are 46,000 creators and makers of semiconductor technologies mastering the semiconductor supply chain with state-of-the-art manufacturing facilities. An independent device manufacturer, we work with more than 100,000 customers and thousands of partners to design and build products, solutions, and ecosystems that address their challenges and opportunities, and the need to support a more sustainable world. Our technologies enable smarter mobility, more efficient power and energy management, and the wide-scale deployment of the Internet of Things and 5G technology. Further information can be found at www.st.com.

For Press Information Contact:
Michael Markowitz
Director Technical Media Relations
STMicroelectronics
Tel: +1 781 591 0354
Email: michael.markowitz@st.com

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FAQ

What is the significance of the collaboration between STMicroelectronics and Xilinx?

The collaboration aims to develop a power solution for the Xilinx Kintex® UltraScale™ XQRKU060 FPGA, enhancing its capabilities for space applications.

What are the benefits of the Xilinx XQRKU060 FPGA?

It allows for programmability in orbit, enabling cost-effective bug fixes and updates, reducing the need for custom ASIC designs.

What features do the regulators provide for the XQRKU060 FPGA?

The regulators offer high voltage accuracy, stability during transients, and resistance to total ionizing dose radiation.

How do the RHRPMPOL01 and RHFL6000A regulators function?

They maintain regulated output during rapid changes in current demand and are designed to resist disruption due to radiation.

What impact does this power solution have on space system development?

It simplifies development, potentially leading to faster project completion and lower mission costs.

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