terkio wrote: ↑Tue Apr 07, 2020 8:04 pm
What I have in mind is using a matching gig where I insert a resistor in the transitor base to represent the bias resistor that will be used in the final circuit.
There's a lot to be said for simply using the preamp itself as a test circuit which includes the bias resistors.
I would suggest that approach in the MC preamp instructions but it would require socketing the input transistors.
Since I'm not crazy about leaving the sockets in for the final build I suggested testing Vos out of circuit.
You might want to check out this webpage http://www.dicks-website.eu/low_noise_a ... part3.html they compare several transistors, apparently the ones with the lowest noise are the ZTX853 with a merely 1.62 Ohm of base spreading resistance, or 0.22 nV/rootHz.
Your test setup seems to be better thou, in a "Double Balanced" configuration, opossed to the single transistor used in the webpage.
Bonum certamen certavi, cursum consumavi, fidem servavi.
I'd be curious to see how the ZTX853 directly compares to the ZTX951 (PNP).
One of my objectives is to find higher-gain low noise transistors in the Zetex series that would serve well in mic preamp applications where the absolute lowest rbb' isn't necessarily required due to the higher source impedance.
Fortunately there are quite a few.
We're lucky we can use these power devices "off-label."
mediatechnology wrote: ↑Tue Jun 02, 2020 7:34 am
One of my objectives is to find higher-gain low noise transistors in the Zetex series that would serve well in mic preamp applications where the absolute lowest rbb' isn't necessarily required due to the higher source impedance.
Fortunately there are quite a few.
We're lucky we can use these power devices "off-label."
They are not that cheap thou, the ZTX851 is around a dolar a piece, you can buy a pair of opamps with that!
Bonum certamen certavi, cursum consumavi, fidem servavi.
In 100's the ZTX851/853 drop down to about 67 cents.
Still not cheap but capable of outperforming just about everything out there other than the PNP ZTX951.
I just did a side-by-side comparison and I think they're the same die with the ZTX853 having higher Vce breakdown of 100V vs 60V for the ZTX851.
I hadn't looked at the ZTX953 before but it appears to be the PNP compliment to the NPN ZTX853.
I think Dick's measurement differences between the ZTX851 and ZTX853's rbb' may be statistical since they are so small.
Also looked at the ZTX857/957 300V complimentary pair. Both have significantly lower Cobo than the ZTX851/951 ZTX853/953.