■Background
of The Invention |
Figure
1:
Existing
Electrolytic Capacitor Structure |
The
quality of a capacitor depends on whether that of a dielectric
is good or not. Electrolytic capacitors using an aluminum oxide,
the best dielectric on earth, therefore, has to be ranked at the
top of the capacitors.
Existing electrolytic capacitors, however, hold serious inherent
defects: There is no practical way to make a conductive connection
between a true cathode on the surface of an aluminum oxide dielectric
layer and an external cathode. A separator, therefore, is required
to act as an intermediary between the two cathodes, and signals
with electrons transfer riding on ions in an electrolyte that
impregnates the separator.
While signals pass the electrolyte in the separator that has
a thickness of 20,000 times wider than the dielectric layer, some
of the signal information is lost, and distortion is radiated
due to the slowness of ions and non-linearity. The signal quality
deteriorates sharply, and the total performance of the capacitor
declines a great deal. |
|
■Why
Is The Black Gate Best? |
Figure2:
Black
Gate Structure |
The
quality of a capacitor depends on whether that of a dielectric
is good or not. Electrolytic capacitors using an aluminum oxide,
the best dielectric on earth, therefore, has to be ranked at the
top of the capacitors.
Existing electrolytic capacitors, however, hold serious inherent
defects: There is no practical way to make a conductive connection
between a true cathode on the surface of an aluminum oxide dielectric
layer and an external cathode. A separator, therefore, is required
to act as an intermediary between the two cathodes, and signals
with electrons transfer riding on ions in an electrolyte that
impregnates the separator.
While signals pass the electrolyte in the separator that has
a thickness of 20,000 times wider than the dielectric layer, some
of the signal information is lost, and distortion is radiated
due to the slowness of ions and non-linearity. The signal quality
deteriorates sharply, and the total performance of the capacitor
declines a great deal. |
|
|
|
|
|