Yesterday Texas Instruments introduced a couple of new chipsets (fuel gauge an charger ICs) designed to improve the charging speed and life expectancy of single-cell Li-ion batteries. The technology, called MaxLife, is expected to provide an improvement of up to 30 percent in battery service life and faster charging times. Cell impedance is carefully monitored by the fuel gauge chip while the charger IC uses a model of battery degradation to charge the cell in the most effective way. Both chips are connected via an I2C bus to form an autonomous battery management system which, according to the company, is safer and more thermally efficient than existing solutions. The two chipsets (2.5A and 4.5A) are now available along with a development kit, so it's only a matter of time until this technology lands into handsets and other devices that use single-cell Li-ion batteries. Check out the details after the break.
TI fast-charge technology gets more life out of a Li-Ion battery
New battery fuel gauge and charger chipsets with MaxLife™ technologyallow consumers to charge faster without degrading the battery
DALLAS (June 6, 2013) – Texas Instruments Incorporated (TI) (NASDAQ: TXN) today introduced two power management chipsets with TI's patented new MaxLife™ fast-charge technology, which allows consumers to charge single-cell Li-Ion batteries faster and experience longer battery life. The bq27530 and bq27531 fuel gauge circuits, coupled with TI's bq2416x and bq2419x chargers, optimize battery performance using the highest possible charge rates with minimal battery degradation. For samples and evaluation module, visit www.ti.com/maxlife-pr.
Mobile phone users are frustrated when their batteries' charge doesn't last as long after months of daily charging and discharging. TI's MaxLife technology leverages an innovative degradation modeling system to minimize charge time while extending battery service life – as much as 30 percent according to lab tests. Based on TI's popular Impedance Track™ battery capacity measurement technology, the MaxLife algorithm accurately predicts and avoids charge conditions that could degrade the battery.
Autonomous battery management
Traditional software-controlled battery management systems – whether implemented with a microcontroller, PMIC (power management integrated circuit) or digital signal processor – are limited in their ability to predict accurate battery capacity and translate that information into run time. The new bq27530 and bq24160 chipset for 2.5-A charge rates and the bq27531 and bq24192 chipset for 4.5-A charge rates give designers greater flexibility by having the gauge control the charger directly. This autonomous battery management system reduces software overhead, improves battery safety and security, provides better thermal management and allows a designer to adapt the charging algorithm to support different platforms and newer higher capacity batteries.
Development kit gets you started
A new Li-Ion fast-charge development kit is available, which features the bq27531 fuel gauge directly communicating with the bq24192 charger via an I2C interface. Input operating range for the evaluation kit is 4.2 V to10 V.
Key benefits of the MaxLife technology:
- Faster charging at up to 4.5-A rates for single-cell lithium batteries.
- Extended battery service life with minimum degradation of run-time after each discharge cycle.
- High-efficiency charging with enhanced thermal management and reduced heat generation.
- High-performance Impedance Track™ monitoring system provides the most accurate capacity estimation and precise control of charging current and termination thresholds.
TI analog for consumer electronics
TI's broad range of power management and analog signal chain products offers design engineers the high performance, low power and integration they need to create innovative and differentiated consumer electronics. TI is engineering the future with gesture recognition, touch feedback, advanced battery charging, audio, health technology and more. Learn how TI analog products improve how we live, work and play at www.ti.com/analogconsumer-pr.
Availability and pricing
The bq27530 and bq27531 battery fuel gauges with charger control are available now in a 2-mm by 1-mm by 0.65-mm, 15-pin wafer chipscale (WCSP) package, and are priced at US$2.07 in 1,000-unit quantities. The bq24192 4.5-A battery charger comes in a 24-pin, 4-mm by 4-mm QFN package and is priced at US$2.50 in quantities of 1,000. The bq24160 dual-input 2.5-A charger comes in a 24-pin QFN package and a 2.8-mm by 2.8-mm, 49-ball WCSP package, and is priced at US$2.50 in 1,000-unit quantities.
Find out more about TI's battery management portfolio:
- Easy-to-use MaxLife battery management development kit based on the bq27531 and bq24192.
- Review TI's entire battery charging portfolio, including TI's easy-to-use Battery Charger Selection tool.
- Ask questions and help solve problems in the Battery Forum in the TI E2E™ Community: www.ti.com/batteryforum-pr.
- Download TI's Battery Management Solutions Guide: www.ti.com/bmsguide-pr.