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开发工具包跳开始能量收集设计的物联网
凭借其电池少操作的承诺,能源收集提供了一个有吸引力的解决方案,为智能设备供电的物联网(物联网)。尽管其明显的简单,但是,电源能够绘制可用的能源从环境来源提出了多种挑战。新能源收获的设计师,以及那些在其错综复杂的发展经验,努力通过能源采集组件制造商包括先进的线性器件,Cymbet,线性技术,集成,从使用获得快速提升芯片技术、化学技术、硅实验室,STMicroelectronics,德克萨斯,伍尔特电子仪器。
一个强大的能量收集供应提供了广泛的功能(图1)。在输入端,换能器接口电路需要保持换能器的最大功率点,采用先进的最大功率点跟踪(MPPT)算法,以保持最佳的能量转换。在子系统中,能量管理电路需要确保适当的充电和放电循环的能量存储设备,如超级电容器和薄膜电池。
Figure 1: Simple in concept but difficult in execuTIon, energy-harvesTIng power supply design presents significant challenges for ensuring maximum energy conversion and efficient power management (Courtesy of the Next-GeneraTIon Energy-HarvesTIng Electronics, Engineering and Physical Sciences Research Council)。
On the output side, power-management circuitry needs to ensure proper supply levels to the load and gracefully shut down load circuitry if harvest energy and stored power fall below minimum levels. In turn, those circuits need to restore the supply in the correct sequence needed to prevent mid-reset collapse of load circuitry due to insufficient power. In short, energy-harvesting requires strict attention to every detail of energy conversion and power management, and can threaten to stall tight schedules for IoT device design.
