Ultra-low-power precision real-time-clock targets IoT
EM3028 targets green IoT applications, with 50% extended battery life compared to its closest competitor, at double the accuracy. It extends the device life span at a reduced overall BOM cost.
EM RTCs provide an elegant solution for increasing the autonomy of connected devices, by providing accurate sleep and wake-up timing for their power-hungry elements. The frustrating need to frequently charge or replace the batteries of a wearable device becomes a thing of the past with the EM3028 used as an ideal companion for the company’s energy harvesting systems – this unique combination requiring, in certain applications, no charging or battery replacement throughout the complete device life span.
The high accuracy and long-term stability of this RTC guarantee consistent performance throughout the device lifetime without the need to calibrate during manufacturing. Its 1-ppm accuracy guarantees a 30 seconds precision over one year, twice as good as the best-in-class RTC previously on the market, while consuming the energy equivalent of 4 water drops per day.
The device features an integrated backup switch and, thanks to the extreme low power operation, allows waking up a sleeping device even years after it has been switched off for power saving purposes, all at extremely low BOM cost.
“Today we set a new world record, with 40nA current consumption for 1-ppm accuracy, making the EM3028 the perfect embodiment of our watchmaking DNA – Swiss precision timing combined with ultra-low-power microelectronics”, says Michel Willemin, CEO of EM Microelectronic. “This development is a major stepping stone for our vision of a green IoT with a seamless user experience, based on zero-maintenance devices”.
Other key features of EM3028 include a 32-bit UNIX timer, operating voltage range as low as 1.2-V, as well as a plug-and-play, factory pre-calibrated non-volatile configuration setting guaranteeing the configuration and user parameters are never lost, even in case of system power fail. The extremely small device size makes it ideal for integration in tiny wearable applications.
The EM3028 is available as a standalone IC or in customized, application-specific modules, in combination with other parts from the EM portfolio, such as Energy Harvesting controllers, EM9304 BLE chip and a wide variety of sensor systems.
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