Register Maxim Webinar | Achieving Better SIMO Power Management

The single-inductor, multiple-output (SIMO) power converter structure has been around, at least in theory, for 15 years, but it has only recently been implemented in power management ICs (PMICs). The latest version addresses many of the challenges and shortcomings listed in earlier studies. In addition, SIMO technology provides design engineers with a way to extend battery life in a variety of compact, low-power electronic designs while meeting space constraints.

On March 6th from 10:00 am to 11:00 am , Roger Yeung, senior product manager of Maxim's mobile power product line, will share with you the latest portable device power management technology through a online seminar , giving you a comprehensive understanding of Maxim's SIMO PMIC solutions in this field.

Don’t miss out on this exciting content. Scan the QR code below to make an appointment and register!

Live broadcast time: Wednesday, March 6, 2019, 10:00 am - 11:00 am

Live Topic: SIMO Power Management for Better Performance

Live broadcast content:

• How to overcome the power, efficiency, and size challenges of small form factor, battery-powered devices as well as non-battery-powered products that need to shrink in size. To illustrate Maxim's SIMO approach, we will focus on the example of earphones, insulin pens, and TV dongles.

• How to leverage the flexibility of SIMO buck-boost converters to meet the output voltage requirements of these designs without the need for discrete components.

• Why is it important to evaluate efficiency at the overall system level as opposed to at the component level?

Roger Yeung | Senior Business Manager of Maxim Mobile Power Product Line

Roger Yeung is responsible for Maxim's high-performance, compute-intensive PMIC and advanced low-power PMIC businesses. Roger started his career as a technical marketing engineer and has been committed to various innovative mobile power products for many years. Roger holds a bachelor's degree in electrical engineering from the University of California, Santa Barbara, and an MBA from the University of California, Hayward.

Scan or long press the QR code above to register

(Tips: Please ensure that you fill in the registration information accurately. You will receive a confirmation email after successful registration, which will include the seminar viewing method and access address)

News Release | Maxim Releases High-Performance PMICs to Power Next-Generation Consumer Products