As a major supplier to the military and aerospace industries, Renesas' product development methodologies reflect experience designing products to meet the highest standards for reliability and performance in challenging environments.

Manufacturing & Test Information

As a major supplier to the military and aerospace industries, Renesas' product development methodologies reflect experience designing products to meet the highest standards for reliability and performance in challenging environments.

The low dose rate ionizing dose response of semiconductors has become a key issue in space applications. Renesas is addressing this market by wafer-by-wafer low dose rate acceptance testing as a complement to current high dose rate acceptance testing.

Renesas is one of only a few RHA Defense Logistics Agency (Land and Maritime) QML suppliers. All of Renesas' radiation hardened SMD products are MIL-PRF-38535/QML compliant and are 100% burned in.

分类

Harsh Environment A/D Converters

Low-power A/D converter for FemtoCharge™ technology on a standard CMOS process

Harsh Environment Amplifiers

Amplifiers to meet the highest reliability and performance standards for harsh environments

Harsh Environment Comparators

Monolithic, quad, precision comparators for accurate, high-speed, signal level detection

Harsh Environment Data Communications ICs

Receivers, line drivers and encoder-decoders for data communications applications

Harsh Environment Digital Controlled Potentiometers (DCPs)

Single, dual and quad DCPs implemented with a combo of resistor elements and CMOS switches

Harsh Environment Half, Full Bridge and Three Phase FET Drivers

Drivers optimized for PWM motor control and UPS system applications

Harsh Environment Isolated PWM Switching Controllers

Single-ended, current mode controllers for boost, flyback and isolated output configurations

Harsh Environment Microprocessors and Peripherals

Microprocessors and peripherals for space and harsh environment applications

Harsh Environment RS-485/RS-422 Serial Interface

ESD protected transmitter/receiver devices that meet balanced communication standards

Harsh Environment SAR A/D Converters

12-bit analog-to-digital converters that are qualified to QML Class Q military standards

Harsh Environment Sample and Hold Converters

Sample and hold amplifiers for use in precision, high-speed data acquisition systems

Harsh Environment Switches/MUXs/Crosspoints

Devices that offer excellent performance across a wide input voltage range

Harsh Environment Transistor Arrays

Devices that consist of 5 dielectrically isolated transistors on a common monolithic substrate

Product Selector: Harsh Environment Products

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视频和培训

Are Your ICs Ready for the Real Space Environment?

Over the past 19 years, the space industry has placed a higher value on understanding the effects that long-term, low dose radiation can have on ICs. Intersil's radiation testing specialist Nick van Vonno discusses why this shift has occurred and what we are doing to address this change.

Transcript

There are many different types of radiation, and indeed Intersil addresses two of these. Intersil addresses total dose testing which is basically gamma rays. Okay, and at both high and low dose rate, as we'll get into later. Intersil also addresses single event effects of a fairly broad range, and those are typically addressed by heavy ion testing.

Low dose rate testing, you have to contrast this really in order to understand this. You have to look historically at how total dose testing which is done with gamma rays, how that's been performed. Historically this has been performed at what we call high dose rate, and typically to put this in some numbers, that would run somewhere in the range of 50rad to 300rad/s.

Low dose rate, on the other hand, is a much, much slower dose rate. The generally accepted number, and the one we perform our work in, is 0.01rad/s. You see how far that's away from 300rad a second. And that can also be expressed as 10mrad/s if you'd like.

Now why are we goofing with that? And the answer is that the low dose rate is what happens in space. Dose rates in space are almost uniformly low to the order of 10mrad/s. Low dose rate radiation testing has been a, let's call it a hot topic in silicon advanced research since about 1992, okay? In 1992, some researchers out at Mich research came up with a very unusual finding which showed that certain parts that looked very good at high dose rate degrade with amazing rapidity, orders and orders of magnitude, worse at low dose rate. And so, that was not a fully intuitive result, and indeed it had to be repeated, and in the intervening 19 years there is a very large amount of work that's been done on low dose rate effects. And, as we've learned about how different parts react in low dose rate, we've, as an industry, we've swung over more towards a low dose rate testing emphasis rather than a high dose rate testing emphasis.