Ambient light, thermal gradients, vibration/motion, or electromagnetic
radiation can be harvested to power electronic devices. At the same
time, all energy-harvesting-based systems need energy storage for times
when the energy cannot be harvested (e.g., at night for solar-powered
systems). Rechargeable batteries ‒ known as “secondary” cells to
differentiate them from “primary” or single-use cells ‒ are usually
specified for this task. This article will examine the various secondary
cell technologies available to energy harvesting system designers
looking for a cost-effective and powerful battery solution.
Primary and secondary batteries contain the same basic structure of a
cathode, an anode, an electrolyte for moving charge between the
terminals, and a means to separate them. Secondary cells are
distinguished by the type of rechargeable chemistry employed, such as
nickel-cadmium or lithium-polymer, or solid-state thin film. [Link]
0 comments:
Post a Comment