Fully Integrated, Single-Chip, Low-Cost Device Comes in Ultra-Thin, 3x3 mm UDFN Package; Quietly and Efficiently Drives Fans in Portable-Computing Applications
Tags / Keywords: Fan Motor Driver, BLDC, 3-Phase BLDC, Sensorless, Sinusoidal, Resistor-Programmable, Back EMF, BEMF, Small Package, Low Cost, Low Acoustic Noise, Low Mechanical Vibration, Portable Computing, Laptops, Cooling
CHANDLER, Ariz., Dec. 12, 2011 [NASDAQ: MCHP] — Microchip Technology Inc., a leading provider of microcontroller, analog and Flash-IP solutions, today expanded its sinusoidal, sensorless, 3-phase BLDC fan motor driver portfolio with the MTD6505—the industry’s first and only standalone, resistor-programmable driver that enables the selection of multiple back-EMF coefficient ranges. This unique feature allows engineers to design for a wide variety of 3-phase BLDC fan characteristics with a single device, thus saving time and money by standardizing multiple product lines on one driver and very few external components. Additionally, the low-cost driver comes in a 3x3 mm UDFN package with a 0.5 mm thickness for space-constrained applications, such as thin laptops and tiny BLDC fans.
To enable high energy efficiency and quiet operation with low acoustic noise and mechanical vibration, the MTD6505 includes a 180-degree sinusoidal drive. Being a sensorless driver means that the MTD6505 eliminates the need for an external Hall-Effect sensor, reducing both cost and board space. Additionally, the driver provides a number of on-chip protection features to preserve the motor’s life and avoid harmful operating conditions, including thermal shutdown, over-current limiting and lock-up protection.
“Microchip’s customers have been asking for a small, thin, single-chip device that can drive a broad range of 3-phase BLDC fan motor applications,” said Bryan J. Liddiard, marketing vice president of Microchip’s Analog and Interface Products Division. “The MTD6505 is the most cost-effective, complete and flexible single-chip device on the market.”
For more information, visit the Microchip website at: