Tech & Product

Industry's first multiphase bidirectional current controller from TI

March 20, 2017


DALLAS, TX -- Texas Instruments introduces the industry's first fully integrated multiphase bidirectional DC/DC current controller, which efficiently transfers electric power greater than 500 W per phase between dual 48-V and 12-V automotive battery systems. The highly integrated LM5170-Q1 analog controller features an innovative average current-mode control method that overcomes the challenges of today's high-component-count, full digital control schemes.

TI will demonstrate the LM5170-Q1 controller in booth No. 701 at the Applied Power Electronics Conference (APEC) in Tampa, Florida, March 27-29, 2017. The LM5170-Q1 is the latest in TI's portfolio of industry-leading DC/DC converters, controllers and charge pumps, enabling engineers to innovate and differentiate their power supply designs.

Hybrid electric vehicles use both a high-voltage 48-V battery and the standard 12-V automotive battery. Design engineers typically manage these dual battery systems using a digital control scheme, which includes multiple discrete components such as current-sense amplifiers, gate drivers and protection circuits. These full digital control schemes are bulky and expensive. To solve this challenge while improving performance and system reliability, TI offers a mixed architecture in which the microcontroller handles higher-level intelligent management, and the highly integrated LM5170-Q1 analog controller provides the power conversion. Read the blog post, "Interconnecting automotive 48V and 12V rails in dual battery systems," to learn how to overcome the challenges of designing a power supply for hybrid electric vehicles.

LM5170-Q1 key features and benefits
•Unique design for optimized system cost and performance: The LM5170-Q1's average current-mode control method improves performance, simplifies implementation and reduces cost. Read the blog post, "Selecting a bidirectional converter control scheme," to find out how TI's average current-mode control method compares to conventional control schemes.
•High accuracy: The controller's 1 percent accurate bidirectional current regulation ensures precise power transfer.
•Power efficient: The LM5170-Q1 achieves greater than 97 percent efficiency.
•High precision: The controller monitors current with up to 99
percent accuracy. •High power: Integrated 5-A peak half-bridge gate drivers for high power capability.
•Superior performance: Diode emulation mode of the synchronous rectifier MOSFETs prevents negative current and enhances light load efficiency.
•Automotive quality: The LM5170-Q1 is AEC-Q100 qualified. Download the white paper "Driving the green revolution in transportation," to learn how advanced electronics are increasing the automation, safety, comfort and convenience of electric vehicles.

Availability, packaging and pricing
Available in volume now through the TI store and authorized distributors, the LM5170-Q1 is offered in a 48-pin, 9-mm by 9-mm quad flat package (QFP) and priced at US$5.84 in 1,000-unit quantities. Order the LM5170EVM-BIDIR evaluation module, and download the PSpice transient model and LM5170-Q1 quick-start DC/DC synchronous buck converter design tool.

For more information, samples and an evaluation module, see www.ti.com/lm5170q1-pr  

Learn more at http://www.ti.com


Add Comment




Sensors Portal


Automate 2017


IE Europe 2017


IS Auto 2017


MEMS Symposium




Medical Sensors Design Conference




Advertise


Subscribe


Sensorss Expo & Conference 2017 | June 27-29 | San Jose, CA



Twitter Feed

Find It Fix It Forum

Sensors invites you to join the Findit-Fixit Forum, where you can get answers to your sensing questions—concerning technologies, products, methods, applications, and services--and also offer help to your fellow engineers. The Forum covers all kinds of topics, from the basics to the extraordinary.

Join the discussion!


© Copyright 2017 Questex, LLC. All Rights Reserved. Sensorsmag. Privacy Policy | Terms of Use

If you are having technical difficulties or considerations, please contact the webmaster.