Powerelectronics 3328 02501 Texas Instruments

High-Efficiency 17-V DC/DC Power Solutions Suit Tight Spaces

April 24, 2015
Texas Instruments introduced four new SIMPLE SWITCHER(r) nano power modules that redefine power supply design for space-constrained applications.

Texas Instruments introduced four  SIMPLE SWITCHER(r) nano power modules that redefine power supply design for space-constrained applications. The 17-V and 5-V modules feature high performance in the industry's smallest packages, and expand TI's SIMPLE SWITCHER module portfolio to address 100-mA to 2-A industrial designs, such as servers, factory automation, test and measurement, and network security cameras

TI's 17-V, 0.65-A LMZ21700 and 1-A LMZ21701, as well as the 5-V, 1-A LMZ20501 and 2-A LMZ20502 DC/DC power modules achieve an overall solution size of up to 40-percent smaller than a discrete implementation. The modules combine high efficiency with high density and reduce EMI, even while operating at low power. All four modules enable designers to easily add more features and functionality to their systems in a smaller form factor, while speeding time to market.

Building on decades of power management innovation, 2015 also marks the 25th anniversary of the SIMPLE SWITCHER portfolio. TI introduced the wide VIN LM257x and LM258x regulators in 1990. Read the Power House blog, "It all started with floppy diskstlead-power-dcdc-sva-ppd-sspl-nanolmz-pr-blog-en>" for more details.

Key features and benefits:

·     Industry's smallest solution sizes (as small as 30 mm2) reduces board space by 40-percent when compared to discrete solutions.

·     Low component count simplifies design and increases system reliability.

·     Modules provide effective power management over the entire operating range

·     Low output ripple at less than 10 mVpp for noise sensitive rails.

·     Low EMI complies with the CISPR 22 (Class B) radiated and conducted electromagnetic interference standard.

·     Modules enable easy implementation of multiple power rail sequencing using Power Good pin.

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