Sep 17 2013
Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, today announced a new family of microcontrollers (MCUs) —the PIC24FJ128GC010.
This family is an analog system on a chip that integrates a full analog signal chain, including Microchip’s first ever on-chip precision 16-bit ADC and 10 Msps 12-bit ADC, plus a DAC and dual operational amplifiers (op amps), along with eXtreme Low Power (XLP) technology for extended battery life in portable medical and industrial applications.
This combination of analog integration and low power consumption reduces system cost and noise, and improves the signal throughput in applications such as portable medical monitoring devices, (e.g., blood-glucose meters and blood-pressure monitor), as well as industrial applications such as portable monitoring devices (e.g., voltage and current monitors, gas sensors and high-speed sensor arrays), among others. The PIC24FJ128GC010 family includes an integrated LCD display driver that provides the ability to drive up to 472 segments with information-rich user displays that include scrolling alphanumeric banners. Integrated USB supports the uploading of clinical data for medical equipment, and can act as a service/data port for industrial equipment. Capacitive touch sensing is supported with an on-chip mTouch™ peripheral. The integration of a 16-bit ADC, USB and LCD into a single low-power MCU allows for very small form factor, battery-powered applications. The PIC24FJ128GC010 family represents a significant cost reduction over a multi-chip implementation, enabling lower noise, faster throughput, smaller PCB size and faster time to market.
“Designing precision analog circuits is a challenge. Microchip has made analog design easier with the launch of this latest intelligent-analog microcontroller family,” said Joe Thomsen, director of Microchip’s MCU16 Division. “We started with the customer’s end product in mind debugging the noise and communication so designers get consistent analog performance across applications. We also created a comprehensive starter kit on which our customers can build their software, hardware and sensors—drastically improving their development time by eliminating the need to design a board.”