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New Products
December 1, 2011
Power Integrations Introduces LED Driver Design for High-Voltage LEDs
Power Integrations published a reference design (DER-297) describing a high-efficiency, ultra-compact driver for a B10-style LED light bulb. Based on Power Integrations’ LinkSwitch-PL non-isolated, single-stage LED driver IC, the power supply is specifically tailored for use with high-voltage LEDs such as the recently announced XLamp XM-L and XLamp XT-E ranges from Cree. DER-297 provides the high-voltage output required by the LEDs, optimizing overall system efficiency by reducing power lost due to current flow in the driver inductor and output diode.
The DER-297 power supply design is very small and cost-effective with a BOM of only 20 components. The high level of integration in the LinkSwitch-PL device combines PFC and constant-current functions into a single buck-boost stage requiring only a tiny inductor. The design reaches 87% efficiency at 115 VAC for a 4.3 W LED driver (86% for 2.9 W output) while achieving a power factor greater than 0.9, easily meeting EN61000-3-2 Class C limits, and creating less than 20% Total Harmonic Distortion (THD).
Commented Andrew Smith, product marketing manager for LED applications at Power Integrations: "The tiny B10 and similarly compact form factors are very challenging for LED lamps. The LinkSwitch-PL device used in DER-297 permits the driver to be both small and highly efficient, which allows us to pack the design into a B10 base without using potting compound or compromising performance. The simple BOM also means that the converter has a very low cost, making DER-297 well suited for this increasingly price-competitive market."
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Mark McClear, applications engineering director at Cree, added: "The very low-volume enclosure of the B10 bulb creates a substantial engineering challenge for the driver designer. Power Integrations’ LinkSwitch-PL device configured in the buck-boost topology not only drives the LEDs beautifully, but easily meets the physical and thermal specifications due to the low component count and high operational efficiency."
More news and information regarding the latest developments in Smart Grid electronics can be found at Darnell’s SmartGridElectronics.Net.
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