Taking Scheme A with its magnitude and phase versus frequency as shown in Figure B (blue curve), I make an invitation to the community to achieve similar frequency response (magnitude and phase), as shown in Figure B (red curve). To accomplish this, one has to use the same components shown in Scheme A (referring to quantity, type and value). Not allowed to remove or add components as those shown in Scheme A (you must use the same components, to achieve the objective of this challenge). The input signal must remain AC coupled. The high frequency response must remain similar (over 10 KHz). The voltage gain in the passband should remain similar (3.92). The input impedance in the passband should remain similar as well. The output is applied over the 10K resistor. This 10K resistor must continue to fulfill the function as output load in the new proposal. Another thing is that is not allowed in the attempt to generate offset problems at the same stage.
The answer to this challenge's available to me, since I am the mentor of this exciting discovery.
With this new interconnection between components, we can achieve these and many other improvements.
Everything is in the process of being patented. That is why the new scheme can not be shown yet. It can be applied to the field of audio, among other applications.
As soon as I get the title of the invention, I'm going to explain in detail.
regards
Scheme A:
![Click the image to open in full size.]()
Figure B:
![Click the image to open in full size.]()
The answer to this challenge's available to me, since I am the mentor of this exciting discovery.
With this new interconnection between components, we can achieve these and many other improvements.
Everything is in the process of being patented. That is why the new scheme can not be shown yet. It can be applied to the field of audio, among other applications.
As soon as I get the title of the invention, I'm going to explain in detail.
regards
Scheme A:
Figure B:
