The Silicon Labs SLSTK2030A Starter Kit contains sensors and peripherals to demonstrate the potential of the EFM8 Laser Bee 8-Bit Microcontrollers.
- EFM8LB12F64E MCU (RS 915-8763) with 64 kB Flash and 4 kB RAM - 20-pin expansion header - Power sources include USB and CR2032 battery - 2 user buttons - 1 tri-colour LED - 8-direction joystick - Ultra low-power 128 x 128 pixel Memory-LCD
Supplied with:
- EFM8LB1 Laser Bee Starter Kit Board - CR2032 Battery - Mini USB cable
Silicon Labs Laser Bee 8-Bit Microcontroller (MCU) Family
The Silicon Labs Laser Bee family of 8-Bit microcontrollers (MCU) offers high performance for analogue intensive applications operating at up to 72 MHz. They include a 14-bit ADC, 12-bit DAC, Temperature Sensor accurate to ±3°C and high-speed communication peripherals.
The 14-bit ADC (850 ksps) provides accurate analogue measurements with zero external components, improving system performance without adding cost or power. With the auto-scan/DMA/accumulation features added to the ADC, filtering is done without MCU intervention. The MCU core is freed up to perform other complex computation algorithm or can be kept in low-power mode.
Maintain consistent performance across variable environmental conditions with the integrated ±3°C Temperature Sensor. It can be used to adjust coefficients and maintain optimal performance through the operating temperature range.
The Laser Bee family are ideal for application requiring a precision MCU and where space is limited, such as optical modules. Available in packages as small as 3 x 3 mm.
The EFM8 8-bit microcontroller family has an unparalleled combination of features and capabilities including a high-speed pipelined 8051 core, ultra-low power, precision analogue and enhanced communication peripherals, integrated oscillators, small-footprint packages, and a crossbar architecture that enables flexible digital and analogue multiplexing to simplify PCB design and I/O signal routing. These next-generation 8-bit devices are aimed at the engineer developing products for the Internet-of-Things (IoT) which will be very small, perform complex processing and run off tiny batteries.