Radiation-Tolerant Plastic-Package ICs Overview

Added on 4月 17, 2019

Learn about Renesas' family of radiation-tolerant plastic-package ICs designed to support the emerging field of small satellites that will provide solutions such as high-speed Internet connections to hundreds of millions of users in communities, governments, and businesses worldwide. These ICs deliver rad-tolerance performance at a much lower cost point versus radiation assurance tested Class V (space level) products.

Related Videos

2:56
Learn about the Intersil radiation-tolerant plastic-package ICs designed to support the emerging field of small satellites.
3:40
Rad-hard ICs are deployed in Orion's crew module, where they are used to support subsystems for mission critical applications.
5:50
The low dose rate ionizing dose response of semiconductors has become a key issue in space applications.
1:59
Nick van Vonno discusses Renesas' commitment to wafer-level radiation acceptance testing.
2:56
Learn about the Intersil radiation-tolerant plastic-package ICs designed to support the emerging field of small satellites.
3:40
Rad-hard ICs are deployed in Orion's crew module, where they are used to support subsystems for mission critical applications.
5:50
The low dose rate ionizing dose response of semiconductors has become a key issue in space applications.
1:59
Nick van Vonno discusses Renesas' commitment to wafer-level radiation acceptance testing.
2:56
Learn about the Intersil radiation-tolerant plastic-package ICs designed to support the emerging field of small satellites.
3:40
Rad-hard ICs are deployed in Orion's crew module, where they are used to support subsystems for mission critical applications.
5:50
The low dose rate ionizing dose response of semiconductors has become a key issue in space applications.
1:59
Nick van Vonno discusses Renesas' commitment to wafer-level radiation acceptance testing.


Video Transcript

Space. Mankind's reach into the universe has been a difficult and expensive venture. But a new era is dawning. And Renesas has developed a new way to advance this era of rapid innovation.

The space environment is harsh. The traditional space missions have required that integrated circuits survive for a long period of time in this environment. However, the mission parameters are changing. Today the innovation in space is increasingly being influenced by the private industry.

Fleets of hundreds of small satellites are being developed by both private industry and government agencies, to create mega-constellations for Low Earth Orbit (LEO). This dramatically drives the need to reduce costs to maintain reasonable profitability. Renesas has developed a new line of products to provide these satellite fleets with a cost-effective, radiation tolerant solution.

Renesas is introducing a whole new radiation tolerant plastic package portfolio to be able to address this emerging market.

The rad-tolerant plastic package family offers designers a reliable, cost-effective solution.

The benefit of this new radiation-tolerant plastic portfolio of products is it really brings a solid balance between a cost-effective solution and a reliable solution that you could use confidently in a shorter mission-life program.

Renesas has developed a complete portfolio of rad-tolerant plastic parts geared towards multiple applications, including power management, sensor interface, and serial communications for small satellites. These ICs deliver high quality and rad-tolerance at a lower cost point.

Typically when you're using a radiation hardened product, you're using it in a mission that tends to be over 15 years in length and also in a higher orbit where the radiation environment tends to be more harsh. For missions that are shorter in life and are lower in orbit, the radiation-tolerant plastic products are a good fit.

Renesas' cost effective radiation tolerant plastic ICs overcome the reliability issues and hidden costs of commercial off-the-shelf ICs, giving satellite manufacturers the confidence and mission success assurance to launch and operate mega-constellations.

On the qualification side of things, we do an AEC-Q100 like qualification. For example, for new technologies we do a life test or burning up to 2,000 hours, temperature-cycling up to 500 cycles, and moisture sensitivity testing.

Renesas' rad-tolerant plastic packaging flow is intended to aid in our customers' new LEO-focused missions. The flow leverages the experience from the Intersil High Reliability group's more than 50 years of space flight experience developing rad hard and rad-tolerant products for extremely harsh environments. And we look forward to continue to power the future of space.