研讨会 Webinar

当便携式电子设备遇到SIMO 电源管理芯片,如何做到性能更优

Why Portable Electronics Perform Better with SIMO PMICs

至少从理论上说,单电感多输出(SIMO)电源转换器结构已经存在了15年之久,但直到最近,市场才将其应用于电源管理芯片 (PMIC)之中。最新的版本破解了早期研究中列举的许多挑战和缺点。此外,SIMO技术为设计工程师提供了一种能够延长各种紧凑、低功耗电子设计的电池寿命的途径,还能同时满足空间限制的要求。

While the single inductor, multiple output (SIMO) power converter architecture has been around—at least in theory—for about 15 years, it has only recently become available in power-management ICs (PMICs) on the market. The newest iteration overcomes many of the challenges and drawbacks noted in earlier studies. In addition, the SIMO technology provides design engineers with a means to extend battery life while meeting the space-constraint demands of a variety of compact, low-power electronic designs.

2019年4月24日 

10AM 北京

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您将了解到:

What you'll learn:

  • 如何克服小尺寸、电池供电设备以及需要缩小尺寸的非电池供电产品的功率、效率和尺寸挑战。为了阐明Maxim的SIMO方法,我们将重点以耳机、胰岛素笔和电视加密器为例。
    How to overcome the power, efficiency, and size challenges of small, battery-powered devices as well as non-battery-powered products that need to shrink in size. To illustrate our SIMO methodology, we’ll highlight examples such as earbuds, insulin pens, and TV encryptors.


  • 如何利用SIMO升、降压转换器的灵活性,来满足这些设计的输出电压需求,且无需分立式元件。
    How the flexibility of a SIMO buck-boost converter addresses the output voltage demands of these designs without requiring discrete components


  • 与元件级相比,为什么评估整个系统级的效率非常重要?
  • Why it’s important to evaluate efficiency at the full system level versus at the component level

持续时间: 1个小时  1 Hour

研讨会 Presentation:45分

Q&A:15分

主讲 Speaker

Roger Yeung

Roger Yeung将担任本次研讨会的主讲,他担任Maxim移动电源团队的资深业务经理。Roger主管Maxim高性能、计算密集型PMIC和高级低功耗PMIC等业务。Roger工作初期任职技术市场工程师,多年来致力于各种创新型移动电源产品。Roger拥有美国加州大学圣塔巴巴拉分校的电子工程学士学位,以及加州大学海沃德分校的MBA学位。

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To access a recording of this webinar in English, visit events.hackster.io/maximsimo.

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