Project Details
Abstract
This proposal is aimed to solve the bulky inductors/coils problem of a
wireless charging system on a chip by utilizing micromachining techniques.
The present wireless charger standard (e.g. Qi standard) uses lower RF
frequency, such as 13.56MHz, to transmit power wirelessly, which requires
very large inductors with high quality factors that cannot be integrated
in CMOS ICs. This issue has prohibited wireless power transfer system from
further miniaturization significantly. Although there are papers trying
to solve this problem by using post-IC processing, very few (or none)
demonstration has been done in standard CMOS technology. In this project
we will consult the prior micromachining techniques and use it to a CMOS
wireless power transfer IC.
The adopted wireless charging system architecture includes wireless power
coupling coils, rectifier, regulator and battery charger. The ac signal
is converted to dc by a rectifier, and then stabilized by a regulator,
finally entered to a three-mode (trickle charging / constant current /
constant voltage) battery charging circuit. After these circuits are taped
out and fabricated by foundry, we will use post-IC processing, such as
substrate thinning/removal, metal thickening, and magnetic material
deposition, to improve their performance. With these micromachining steps,
the eddy current loss/resistive loss will be reduced and the inductance
value will be increased, which help to improve the power management ICs
and fulfill the concept of wireless power system on chip.
Key words:
Project IDs
Project ID:PB10401-0913
External Project ID:MOST103-2221-E182-044-MY2
External Project ID:MOST103-2221-E182-044-MY2
Status | Finished |
---|---|
Effective start/end date | 01/08/15 → 31/07/16 |
Keywords
- wireless power transfer
- micromachining
- SOC
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