SIMPLIFY YOUR DC/DC #DESIGN WITH @TEXASINSTRUMENTS VIA @OEMSECRETS
he LMZM33603 36V, 3A power module offers stellar EMI performance in a compact QFN package.
Order yours today and enjoy the peace of mind that comes with reliable performance, small solution size, and reduced design cycle time.
Powering high-current processors requires flexible solutions, and the TPS53681 PMBus multiphase PWM buck controller delivers with dual output 6+2/5+3 phase configuration. This multiphase driverless controller is paired with TI smart power stages for accurate current sensing and excellent thermal performance.
With a 94% smaller footprint, lower leakage and flat-clamping technology, TI’s Flat-Clamp portfolio provides more robust protection than traditional TVS surge diodes.
TI’s new TVS3300 family of Flat-Clamps gives designers precise control over clamping voltage vs surge current, even across temperature. It’s time to re-evaluate your TVS protection. Learn more in the whitepaper.
Powering your 4A to 8A digital load just got smaller, easier, and more reliable. At 7.5mm x 7.5mm, the TPSM84824 17V, 8A step-down power module provides the smallest footprint in its class. And with TurboTrans™ technology, it delivers fast transient response with the industry’s lowest overshoot.
TPSM84824 comes with minimal external components, and pin- and footprint-compatible 4A and 6A alternatives.
Presenting an easier way to power your high-current digital core: TPSM846C23 is a PMBus-compliant DC/DC power module with an integrated inductor and FETs that crams 35A of output current capability into 240mm2. Two of these modules can easily be paralleled to deliver up to 70A of output current to the point-of-load from a nominal 12V or 5V input voltage.
The TPS5516x-Q1 family provides a cost-effective single chip solution for a regulated output voltage between 5V and 12V, with up to 1A load current depending on voltage requirements. The buck-boost overlap control ensures automatic transition between step-down and step-up mode with optimal efficiency.
These buck/boosts provide a smaller solution size and higher efficiency than a discrete boost-buck converter solution.