F
FraNi
Guest
Hi everyone,
I made some noise analysis for an OTA with IC6.1. Can it be, that the unit at the y-axis from the diagram (shown as V/sqrt(Hz)) is wrong? I used output voltage nodes and input voltage source as the options within the noise analysis window.
When I print out the noise summary then there is shown the integrated output noise e.g. in V^2. So I have to do a sqrt() to the value to get the rms noise in V.
When I do an integration (with function "integ") about the plotted wave and the unit at the y-axis of the noise analysis wave would be really V/sqrt(Hz) then I would have to square the wave before integ. But this delivers wrong results. The right value of the integrated output noise (identically with function value from function rmsNoise) will be get when I simply integrate the shown wave and then make a sqrt. This delivers the same value as from function rmsNoise or from the printed noise summary.
It seems that the unit at the diagram from the noise analysis should be V^2/Hz, not V/sqrt(Hz). Is this right?
Greetings, Frank.
I made some noise analysis for an OTA with IC6.1. Can it be, that the unit at the y-axis from the diagram (shown as V/sqrt(Hz)) is wrong? I used output voltage nodes and input voltage source as the options within the noise analysis window.
When I print out the noise summary then there is shown the integrated output noise e.g. in V^2. So I have to do a sqrt() to the value to get the rms noise in V.
When I do an integration (with function "integ") about the plotted wave and the unit at the y-axis of the noise analysis wave would be really V/sqrt(Hz) then I would have to square the wave before integ. But this delivers wrong results. The right value of the integrated output noise (identically with function value from function rmsNoise) will be get when I simply integrate the shown wave and then make a sqrt. This delivers the same value as from function rmsNoise or from the printed noise summary.
It seems that the unit at the diagram from the noise analysis should be V^2/Hz, not V/sqrt(Hz). Is this right?
Greetings, Frank.