Join us for an engaging webinar with solutions for energy harvesting and battery boosting applications with Nexperia’s latest solutions.
![Image of Maximize Power Density and Performance in Switching Converter Applications With Dual MOSFETs](http://www.digikey.cn/-/media/Images/Article%20Library/TechZone%20Articles/2024/February/Maximize%20Power%20Density%20and%20Performance%20in%20Switching%20Converter%20Applications%20With%20Dual%20MOSFETs/article-2024february-maximize-power-density-240x160.jpg?la=zh-CN-rmb&ts=a8816ba2-81d4-44c7-8274-7fb58f5a06a3&w=135&h=90&bc=white)
考虑电路和 PCB 热设计、电热仿真和损耗分析的注意事项,以实现最佳的 MOSFET 功率密度和性能。
Nexperia's e-mode GaN FETs are designed for low- or high-power conversion applications, offering enhanced power system flexibility.
![Image of Nexperia's NPS4053 5.5 V Load Switch](http://www.digikey.cn/-/media/Images/Product%20Highlights/N/Nexperia/NPS4053%205_5%20V%20Load%20Switch/NPS4053-5_5-V-Load-Switch_Thumbnail90.jpg?la=zh-CN-rmb&ts=01c5252c-731b-41af-b527-ef02e92fec90)
Nexperia 的 NPS4053 开关具有精确电流限制,可提供主动反向电压保护以及采用 SOT457 或 SOT8044-1 封装的内置软启动功能。
Nexperia’s Energy Harvesting PMIC uses the advanced Maximum Power Point Tracking (MPPT) algorithm to harvest energy for ultra-low power IoT sensors/nodes. MPPT uses an embedded hill-climbing algorithm to deliver the maximum power to the load.
Making IoT Implementations Cost-Effective and Sustainable.
![Image of Nexperia's I²C General Purpose I/O GPIO](http://www.digikey.cn/-/media/Images/Product%20Highlights/N/Nexperia/NCA9555%20Series%20GPIO%20Expansion/nexperia-nca9555-90.jpg?la=zh-CN-rmb&ts=a268fd2f-c8a2-4946-a173-a8015c06689f)
Nexperia 的 NCA9555 系列 GPIO 扩展器设计用于 1.65 V 至 5.5 V 的宽电压范围,具有极低的静态功耗。