Micros

Lose power, not data

20th May 2015
Siobhan O'Gorman
0

Overcoming a design hurdle that has burdened engineers for decades, Texas Instruments (TI) has announced a revolutionary Compute Through Power Loss (CTPL) technology to enable context save and restore across its MSP430 FRAM MCU family, including the MSP430FR6972 MCU. 

This patent-pending technology enables instantaneous wakeup with intelligent system-state restoration after an application unexpectedly loses power. In addition, the MSP430FR6972 MCU with TI’s CTPL technology includes integrated smart analogue and digital peripherals to reduce system cost, power and size. These features include a low-power segment LCD controller, a 12-bit differential ADC with internal window comparator, and a 256-bit AES accelerator.

The ultra-low-power MSP430FR6972 MCU with 64KB of non-volatile FRAM highlight TI’s leading ULPBench scores for 16-bit MCUs and can be used for data logging to enable applications such as a wireless motor condition monitor. This system was developed as a TI Design in Kilby Labs, TI’s centre for innovation research, and is paired with TI’s bq25570 energy harvesting IC and SimpleLink multi-standard CC2650 wireless MCU to operate from a coin cell battery for decades. This system monitors and analyses motor vibration frequencies and allows operators to accurately predict and schedule maintenance, reducing potential for machine failures.

By decreasing programming times on an assembly line, the FRAM-based MCUs reduce manufacturing costs. Unified FRAM allows flexible memory use across data and application code. Compared to traditional non-volatile memory solutions, the devices provide 10bn times write-cycle endurance. The MCUs do not require pre-erasure of segments and can be accessed at the bit-level, enabling constant on-the-fly data logging with zero extra power.

The integrated 116-segment LCD driver includes software-configurable LCD pins that enable quick and easy hardware layout; an integrated charge pump allows the LCD contrast level to be maintained even when the MCU is in low-power modes. Other features include 52 capacitive-touch-enabled GPIOs, five timers, a comparator, and an RTC counter as well as SPI, UART and I2C communications, which reduce system cost and product size. Inherent benefits of non-volatile FRAM, LCD controller and built-in security features make the MSP430FR6972 MCUs suitable for smart flow and electricity metrology co-processing, building and factory automation and blood glucose meter applications. RTC standby current consumption of 700nA and a ULPBench score of 117.5 showcase the MCUs as the industry’s lowest-power 16-bit MCU with LCD.

TI’s EnergyTrace++ technology enables developers to analyse power consumption in real-time and includes the unique ability to provide both system and peripheral state information. This allows engineers to take control of their power budget and optimise software to create the lowest energy applications possible. Detailed migration guides and application notes ease migration from existing flash MCUs to MSP430 FRAM MCUs and portability within the code-compatible MSP430 FRAM family.

The MSP430FR6972 MCUs and variants are available in production quantities starting at $2.15 in 1,000-unit quantities. The MSP-EXP430FR6989 LaunchPad allows developers to start evaluating with a full-feature board for only $17.99. The MSP-TS430PM64F target socket development board and MSP-FET programmer/debugger are available for full development at $175.

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