2021-11-30 05:47 AM
Future time requires minimizing the cost of chemical elements. In addition, robotics is gaining power. Your chips will improve. It will be necessary to reduce the nodes, microcircuits and their functions. The work of microcontrollers in closed containers will be required, and in order to ensure data exchange with external nodes and power supply, it will be necessary to isolate the power supply elements from the external environment.
The easiest way to do this right away is in the microcontroller.
Therefore, I had the idea to place a miniature system in microcontrollers for generating electricity, so that there was no need for an external power source. Such a system for generating electricity will consist of two systems:
1) a solar cell on the upper surface of the microcontroller
2) inside miniature 4 coils of copper. inside of which a neodymium magnet moves. Our whole world is vibrations, so miniature magnet oscillations will induce current on the coils. The coils will be connected to 4 miniature super capacitors, in which the accumulation of electricity will occur.
3) The bottom substrate of the microcontroller is a miniature Peltier element that will be heated by the operation of the electronics, and the second outer side will be cooled against the mounting surface, thereby there will be a temperature difference and voltage will appear, which can also be accumulated in supercapacitors.
Electricity from the solar cell and from copper coils will accumulate on super capacitors. of which the microcontroller will be able to take power.
2021-11-30 07:02 AM
Packages are becomng very slim and trends to be even without plastic such as wafer CSP that looks like BGA, gives little room for a module.
2021-11-30 07:45 AM
I think the functionality and novelty are more interesting. Size comes second.
2021-11-30 08:11 AM
>>"gives little room for a module."
Are you thinking from a formulaic point of view?
The atom of the nucleus is how small, and how much energy it contains.