Compact P-Channel 30 V Chipscale MOSFETs offer low on-resistance.
Press Release Summary:
MICRO FOOT® TrenchFET® Gen III power MOSFETs feature one billion transistor cells in each square inch of silicon and are intended for load, battery, and charger switching in handheld devices. While 1 x 1.5 x 0.59 mm Si8497DB offers low on-resistance of 53, 71, and 120 mW at 4.5, 2.5, and at 2.0 V, respectively, 1.6 x 1.6 x 0.6 mm Si8487DB offers on-resistance of 31, 35, and 45 mW at 10, 4.5, and 2.5 V, respectively. Both are halogen free and RoHS compliant.
Original Press Release:
New Vishay Siliconix 30 V P-Channel Chipscale MOSFETs Include Industry's Smallest in 1 mm by 1.5 mm Size, and Industry's Lowest On-Resistance for 30 V in 1.6 mm by 1.6 mm Size
MALVERN, Pa. - Vishay Intertechnology, Inc. (NYSE: VSH) today expanded its MICRO FOOT® TrenchFET® Gen III power MOSFET family with two p-channel 30 V devices that set new benchmarks for size and on-resistance. The new Si8497DB is the industry's first 30 V chipscale MOSFET in the compact 1 mm by 1.5 mm size, making it the smallest such device on the market, while the Si8487DB provides the lowest on-resistance available for a 30 V chipscale device in the 1.6 mm by 1.6 mm form factor.
Vishay's TrenchFET Gen III p-channel technology uses advanced process techniques to pack one billion transistor cells into each square inch of silicon. This leading-edge technology allows a superfine, sub-micron pitch process that cuts the industry's best on-resistance for a p-channel MOSFET by up to half. Chipscale MICRO FOOT technology allows the use of a larger die for a given outline, which means a lower on-resistance for a given device area, in addition to space savings to enable smaller, slimmer end products.
The Si8497DB and Si8487DB will be used for load, battery, and charger switching in handheld devices including smart phones, tablets, point-of-sale (POS) devices, and mobile computing. In laptop battery management circuits, the MOSFETs' low on-resistance translates into lower voltage drops across the load switch, which in turn reduces the occurrence of problem undervoltage lockouts. In charger applications for tablet PCs, smart phones, and POS devices, the low on-resistance means that higher charge currents can be used, facilitating faster battery charging.
For designers, the Si8487DB and Si8497DB provide a choice between size and on-resistance to meet the needs of their specific application. Where space is at a premium, the 1.5 mm x 1 mm Si8497DB combines a slim 0.59 mm maximum height with low on-resistance of 53 m at 4.5 V, 71 mW at 2.5 V, and 120 mW at 2.0 V. In applications where low on-resistance is essential, the Si8487DB offers on-resistance of 31 mW at 10 V, 35 mW at 4.5 V, and 45 mW at 2.5 V, and a 0.6 mm maximum height, the industry's lowest on-resistance values for such a p-channel power MOSFET.
The devices are halogen-free in accordance with the IEC 61249-2-21 definition and compliant to RoHS Directive 2002/95/EC. The Si8487DB is pin compatible with Vishay's 30 V Si8409DB.
Samples and production quantities of the new Si8487DB and Si8497DB TrenchFET power MOSFET are available now, with lead times of 12 weeks for larger orders. Pricing for U.S. delivery starts at $0.12 per piece in 100,000-piece quantities. Follow Vishay Siliconix chipscale MICRO FOOT power MOSFETs at http://twitter.com/vishayindust.
Vishay Intertechnology, Inc., a Fortune 1,000 Company listed on the NYSE (VSH), is one of the world's largest manufacturers of discrete semiconductors (diodes, MOSFETs, and infrared optoelectronics) and passive electronic components (resistors, inductors, and capacitors). These components are used in virtually all types of electronic devices and equipment, in the industrial, computing, automotive, consumer, telecommunications, military, aerospace, power supplies, and medical markets. Vishay's product innovations, successful acquisition strategy, and "one-stop shop" service have made it a global industry leader. Vishay can be found on the Internet at www.vishay.com.
MICRO FOOT and TrenchFET are registered trademarks of Siliconix incorporated.
