M
MRW
I was just checking out various opamp datasheets. I encountered this
opamp:
http://focus.ti.com/lit/ds/symlink/tlv2784.pdf
In the few lines of text, it says that the input noise voltage is 9 nV/
sqrt(Hz) at 10kHz. But in the table at the bottom of the page, it says
that the input noise voltage is 18 nV/sqrt(Hz) at 1kHz.
How did they calculate this?
I'm curious because if I were to use an opamp (not necessarily this
one) then I would like to know how much input noise voltage it
contributes for a certain bandwidth, for instance audio band from 20Hz
to 20kHz. There was another discussion that I saw (don't remember the
link) that mentioned that at one particular design, the amplifier was
designed with a 40dB gain and the input noise got amplified to about
100mV.
opamp:
http://focus.ti.com/lit/ds/symlink/tlv2784.pdf
In the few lines of text, it says that the input noise voltage is 9 nV/
sqrt(Hz) at 10kHz. But in the table at the bottom of the page, it says
that the input noise voltage is 18 nV/sqrt(Hz) at 1kHz.
How did they calculate this?
I'm curious because if I were to use an opamp (not necessarily this
one) then I would like to know how much input noise voltage it
contributes for a certain bandwidth, for instance audio band from 20Hz
to 20kHz. There was another discussion that I saw (don't remember the
link) that mentioned that at one particular design, the amplifier was
designed with a 40dB gain and the input noise got amplified to about
100mV.
