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EETE JAN 2015

energy harvesting Solar-powered radio chip monitors windows to save energy By Paul Buckley Researchers from the Fraunhofer Institute for Microelectronic Circuits and Systems IMS in Duisburg have developed a radio sensor chip about the size of a fingernail that is mounted directly in a window. The sensor is coated with a solar cell to provide power. The radio chip is designed to warn when windows are left open to avoid having heat escaping through the window on cold days. The sensor also detects break-in attempts early on. An automated system will detect open windows and send an alarm signal to the tenant. There are already home and building systems today that register the window status. As a rule, however, the sensors have to be attached by cable to the alarm centre inside the home or building itself. In other cases, batteryoperated radio sensors are used. But changing batteries in structures that have several windows can lead to a considerable maintenance expense. At ten millimeters, the chip is as narrow as a pane of insulating glass is thick. The chip is installed on the aluminium profile between the glass that maintains the distance between the panes. Thanks to the window space, the solar cell obtains adequate light, even in the darkness of winter. Integrated in the chip are magnet and acceleration sensors that register if the window is open just a crack or all the way. The chip can send a signal via radio to the base station in the building if a window has remained open for too long. The applications of the radio chip are diverse. The chip can remind homeowners to ventilate regularly or warn if a window is still open when they leave the home. In addition, it offers reliable protection from intruders even for closed windows. Because the sensors can differentiate very precisely between various fluctuations - for example, a ball that slams against the pane, or an intruders’ crowbar that ratchets open the window frame. Within a tenth of a second, the system detects the disturbance and sounds the alarm if there is any doubt. The IMS researchers around electrical engineer Dr. Gerd vom Bgel and physicist Dr. Andreas Goehlich have mastered two challenges. They succeeded in depositing the solar cell directly onto the uneven surface of the chip. Secondly, the chip consumes power so meagerly that energy from the miniscule solar cell spans the dark hours. “The microchips are coated with numerous conductor paths, its surface is thereby made very uneven. This is why we had to find a means of filling in and evening the surface, like a street profile, prior to coating it with the solar cell”, explained vom Bgel. Currently IMS sensor prototypes can store enough power for up to 30 hours of darkness which is expected to lead to the emergence of a product over the next two years that can even bridge up to two weeks of darkness. By keeping both processor and chip small, the latter is frugal. In addition, the researchers constructed switches that consume little energy, and engineered short radio protocols. We have extracted every possible micro-ampere, said vom Bgel. Adding to the overall conservation of power is the fact that the sensor always switches to sleep mode. Depending on the users’ preferences, the sensor can be set so that it wakes up every few minutes, or even seconds, and takes a measurement. The Israeli firm SOLCHIP, which was asking for solar cells on chips at IMS around two years ago, provided the impetus to developing the solar radio chip. Andreas Goehlichs group of developers succeeded in integrating the solar cells on the surface of the chips. Using these solar cells, Solchip seeks to monitor the street traffic for example, or the climate conditions in vineyards. As you can see, there are a lot of application areas, said vom Bgel. The production costs are so minimal because the application of the solar coating is directly connected to the production process of the chips. Only a handful of additional production steps are needed so that manufacturing can also be accomplished in high quantities. 20 Electronic Engineering Times Europe January 2015 www.electronics-eetimes.com


EETE JAN 2015
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