主要特性和优势
- 经过优化,可从多种环境源(光、动能、温度变化、无线电信号)高效采集能源。
- 独特的无电感设计,可降低BOM成本
- 超紧凑芯片,组装面积<20 mm²。
- 专为低功耗应用而设计
- 高电源转换效率
- 超快MPPT,可在0.5秒内适应
- 基本电源管理功能(如电池保护、USB充电、LDO)
- 得益于冷启动,适合多种存储元件以及无电池设计
关键应用
- 无线物联网设备
- 远程控制单元(例如电视)
- 电子货架标签
- 工业和环境监测
- 智能可穿戴设备
- 消费类电子产品
Featured documents
最新新闻和博客
《积极环境影响》
在某些消费类产品和物联网实际应用中,利用可充电电池进行能源采集非常具有发展前景,可以显著提高电池寿命,同时降低总拥有成本。此处的能源采集是指高效利用太阳能、温度梯度、射频和振动等环境能源为设备供电。
能源采集不仅可减少废弃的原电池数量,还可通过延长电池寿命降低原材料开采量,进而有助于保护环境。我们的长期目标应该是尽可能减少环境影响的同时高效利用自然资源。
点击此处阅读全文: https://www.powerelectronicsnews.com/macro-environmental-effect-of-micro-energy-harvesting/
Parametric search
Products
Type number | Description | Status | Quick access |
---|---|---|---|
NEH2000BY | Energy harvesting PMIC | Production |
Leaflet (2) |
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File name | Title | Type | Date |
2023-0001_NEX_045_Energy_Harvesting_Solution_leaflet_CN-final.pdf | Nexperia_NEH2000BY_Energy_Harvesting_Solution_leaflet | Leaflet | 2024-01-05 |
Nexperia_NEH2000BY_Energy_Harvesting_Solution_leaflet.pdf | Maximize energy storage and sustainability in IoT and low power wireless devices with energy harvesting PMIC | Leaflet | 2023-04-04 |
Marcom graphics (1) |
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File name | Title | Type | Date |
SOT8076-1_HWQFN16.png | plastic thermal enhanced very very thin Quad Flat packages; no leads; 16 terminals; 0.5 mm pitch; 3.0 × 3.0 × 0.75 mm body | Marcom graphics | 2023-03-06 |
Schematic diagram (1) |
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File name | Title | Type | Date |
aaa-036398.png | UM90020 Schematic | Schematic diagram | 2023-05-02 |
White paper (1) |
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File name | Title | Type | Date |
Nexperia_whitepaper_IoT_innovations.pdf | Combining technology innovations to make IoT implementations most-effective and sustainable | White paper | 2023-04-04 |
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