In order to meet the needs of developers designing the next-gen of secure, battery-powered connected devices for the IoT, Silicon Labs has expanded its EFM32 Tiny Gecko microcontroller (MCU) family. Silicon Labs’ new EFM32TG11 Tiny Gecko MCUs provide a cost-effective, ultra-low-power solution for connected devices requiring long battery life and no compromises in features or security.
The Tiny Gecko 11 MCUs are suitable for smart meters, personal medical devices and home automation products with multiple sensors, local displays and touch controls. The new MCUs can be used in IoT designs as stand alone microcontrollers or with network coprocessors, giving developers supposedly exceptional design flexibility.
The Tiny Gecko 11 MCUs are optimised for battery-powered applications offering cloud connectivity through wireless access points, gateways and concentrators. When paired with a Silicon Labs’ transceiver, SoC or module in many light-weight wireless applications, a Tiny Gecko 11 MCU can manage both the application code and wireless connectivity.
When used with sophisticated protocols such as 802.11 b/g/n WiFi, the wireless system can be simplified by partitioning the Tiny Gecko 11 to solely manage the MCU application. The Tiny Gecko 11 MCUs include sufficient memory, sensor interfaces, peripherals, communication links and on-chip security to support both wireless use cases, as well as stand alone MCU applications.
Based on an ARM Cortex-M0+ processor running at 48MHz, the Tiny Gecko 11 MCUs provide ample processing power while maintaining very high energy efficiency. The MCUs combine low active current consumption (37µA/MHz), fast wake-up times, a range of sleep modes (1.3µA in deep sleep) and other architectural enhancements to enable secure, battery-powered IoT products requiring both high performance and low power consumption.
The Tiny Gecko 11 MCUs integrate an array of features that expand application possibilities:
Software and pin-compatible with other EFM32 Gecko products, the new MCUs offer more flash memory (up to 128kB) and RAM (up to 32kB) than the previous Tiny Gecko generation, making it easier to develop feature-rich embedded applications supporting real time operating systems (RTOS) such as Micrium OS.