$99 development tool includes two TI MSP430 MCUs, Chipcon RF module connecter for accelerated ultra low power design
(Product News, 17 Apr 2007 )
Enabling designers to quickly develop ultra low power medical, industrial and consumer embedded systems using either a highly integrated signal chain on chip (SCoC) MSP430FG4618 or small 14-pin F2013 microcontroller, Texas Instruments Incorporated has announced the availability of the MSP430 Experimenter痴 Board (part number MSP-EXP430FG4618). Along with the two 16-bit MSP430 devices, the board includes a TI (Chipcon) radio frequency (RF) module connecter for developing low power wireless networks. The board also features a number of input and output options such as a microphone, buzzer, liquid crystal display (LCD), capacitive touch-pad, push buttons, and pin board prototyping space, among others.
With two MSP430 MCUs, designers can easily develop a variety of low power and battery operated products including cost and space sensitive sensing applications like motion detectors, all the way to highly integrated applications like high precision portable medical and industrial sensing.
The F2013 is a small 4mm x 4mm, 14-pin device that features a fully programmable clock system that provides wake-up from an industry leading 500 nano-amp standby to full-speed operation in less than one micro-second. The F2013 device also includes a 16-bit sigma-delta analog to digital (ADC) for high-precision sensing systems, 2KB of flash and 128B of RAM memory and a basic serial communication interface (USI) which makes SPI and I2C implementations easy.
The FG4618 MCU includes 116KB of flash memory and incorporates the MSP430X core architecture with extended 1MB memory model. The extended memory access is ideal for today痴 larger system requirements and allows for the development of very sophisticated real-time applications, completely in modular C libraries. Up to three operational amplifiers葉o handle high precision instrumentation幼oupled with the on-board 200ksps 12-bit ADC, 1 micro-second code-to-code settling time 12-bit digital-to-analog converter (DAC), and direct memory access controller (DMA) complete a signal chain on chip (SCoC) solution that reduces overall system cost and eliminates the need for external components.
