Tag Archives: production

Leti Shows MEMS on 300mm Wafers

As reported by EETimes from the European MEMS Summit last month, French research institute CEA-Leti has manufactured accelerometer MEMS devices on 300mm-diameter wafers. This technology is currently being transferred to Tronics Microsystems SA (Grenoble, France), which currently only manufactures on 200mm wafers. Since CEA-Leti has long functioned as the R&D group for STMicroelectronics (ST), and previously led the way for ST to produce MEMS chips on 200mm-diameter wafers, we may expect that 300mm-wafer MEMS processing is now on ST’s internal roadmap.
Moving production to larger wafers makes sense when either the chip-size or the manufacturing volume increase in size. Much of the growth in demand for MEMS is for so-called “combo” sensors that combine multiple sensor technologies, such as CEA-Leti’s piezo-resistive silicon nanowire technology which allows the accelerometer, gyroscope, magnetometer, and pressure sensor capability to be integrated on the same chip.
The compatibility of Leti’s 200mm-developed technologies with 300mm wafer fabrication, “shows a significant opportunity to cut MEMS production costs,” said Leti CEO Marie Semeria in a press release. “This will be especially important with the worldwide expansion of the Internet of Things and continued growing demand for MEMS in mobile devices.” Sensors of all sorts will be needed for all of the different “Things” to be able to capture new useful information, so we may expect that demand for combo MEMS devices will continue to increase.

Cross-point ReRAM Integration Claimed by Intel/Micron

The Intel/Micron joint-venture now claims to have successfully integrated a Resistive-RAM (ReRAM) made with an unannounced material in a cross-point architecture, switching using an undisclosed mechanism. Pilot production wafers are supposed to be moving through the Lehi fab, and samples to customers are promised by end of this year.
HP Labs announced great results in 2010 on prototype ReRAM using titania without the need for a forming step, and then licensed the technology to Hynix with plans to bring a cross-point ReRAM to market by 2013. SanDisk/Toshiba have been working on ReRAM as an eventual replacement for NAND Flash for many years, with though a bi-layer 32Gb cross-point ReRAM was shown at ISSCC in 2013 they have so far not announced production.
Let us hope that the folks in Lehi have succeeded where HP/Hynix and SanDisk/Toshiba among others have so far failed in bringing a cross-point ReRAM to market…so this may be a “breakthrough” but it’s by no means “revolutionary.” Until the Intel/Micron legal teams decide that they can disclose what material is changing resistance and by what mechanism (including whether an electrical “forming” step is needed), the best we can do is speculate as to even how much of a breakthrough this represents.