建设替代能源电力系统
发电替代能源系统是关键产品开发项目。作为产品运行成本的直接组成部分,运行它的能量的产生和访问现在是设计周期的一部分。纳米电子学、电力创作/调节压电接口,和PV都方法被用于基础设施水平和移动设备。这些能量收集选项的设计和应用,在系统的其余部分中,现在是使用模型的关键部分。开发工具包允许同时进行能源和消费产品的软件开发。
低功率系统
当人们谈论“非电池”供电系统时,他们首先想到的是令人印象深刻的八位数字、四功能太阳能计算器(见图1)。这些设备从高技术到商品化的产品,功率优化,低成本的项目,现在可以作为一个赠品。关键是降低操作功率和峰值电流。这些更改是通过设计技术实现的。现代移动设备基于工艺改进和设计的功率降低。其结果是,较大的系统现在可以在替代能源产生组件提供的电力预算内运行。
These new systems need to operate both at low voltage (3.3 V and below) and low current (sub-mA range)。 To help manage these designs, external power regulators and storage elements are used to hold the power stable while the circuits run. These low-power designs are identified by their typical “cyclic” peak power patterns that result when the logic switches on the edge of the synchronous clock, or when analog signals are latched into the digital interface section. A key performance aspect of these low-power designs is the software development kits that come with them. They allow applications and functions to be built that, when run, keep the electronic systems inside the low-power envelope for which the design is targeted. The systems are available in two forms: turnkey development systems with a power source, low-power electronics and software development kit (SDK), and as standalone low-power products and standalone power generation components which need custom software limits to make the applications works.
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