Optoelectronics

Compact PMIC increases power efficiency

21st April 2017
Alice Matthews
0

A highly integrated Power Management IC (PMIC) complete power supply solution for DSLR, mirrorless cameras, and multi-cell Li-ion battery applications has been announced by Dialog Semiconductor, the DA6102. The company claims that DA6102’s high efficiency levels surpass those of competing solutions, enabling greater battery savings to allow longer operational run times for 2S Li-ion applications and less heat dissipation for space-constrained and tightly-enclosed consumer devices.

The DA6102 features two buck regulators, one buck-boost regulator, one high-current buck controller, and two always-on LDOs. Extremely low RDSon FETs enable efficiency as high as 94% for buck and buck-boost regulation. This high level of integration and efficiency, combined with a high switching frequency operation of up to 3MHz, minimises the PCB size and external component count and height, delivering what the company claims to be 50% space saving over competing solutions. An I2C interface enables flexibility and easy configuration of the output voltage, switching frequency, power sequencing, and fault protection. Most features are also configurable by OTP for simple output voltage and start-up sequence setup.

“The DA6102 has already been adopted by major OEMs in the industry and will start volume production later in 2017, which is a strong endorsement of the competitiveness of this device,” said Paul Wheeler, Vice President ASSP Mobile Systems at Dialog. “We are increasingly looking to bring our leading PMIC technology from smartphones where we enjoy more than 20 percent market share today to exploit new markets with an increasing range of power standard products.”

Dialog SmartCanvas GUI allows engineers to simply evaluate the DA6102, accelerating their product development time. The device is available in a WLCSP package measuring 2.97x3.375mm and available now through Avnet.

Product Spotlight

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier