Chinese mic with Schoeps circuit

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Amled87

Well-known member
Joined
Mar 20, 2022
Messages
163
Location
Tennessee
I recently picked up two of these (because i'm beginning to work on and modify microphones and figured since I didn't have any schoeps style circuits it would be a fun place to start) for next to nothing. As far as i can tell, they have the normal Schoeps Jfet feeding a pair of PNP transistors. I've traced the circuit and even drew up a schematic using LTspice to see what was going on circuit wise and to see the frequency response. I've only showed the plot from the positive side (XLR pin 2) as Pin 3 is nearly identical just at difference phase. Any tips or recommendations for mods on these? The capsule appears to be a K103 single diaphragm style copy, but without the correct backplate holes. They don't sound bad, but wondering on ways to improve?
 

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What are you looking / hoping to "improve"?
They're a little noisy when "alot" of gain is applied for overhead and or acoustic guitar use. But, I guess I could alleviate that some by reducing the 150k resistors at R3/R4 to 100k and then adjust the 0.1uF coupling caps to have the same frequency response. Though, I don't think there would be much noticeable difference at all in the low-end (haven't done the math on the HPF, but I'm sure it's not much of if at all audible difference).

Would also replacing the whole output section with better matched transistors and closer tolerance resistors/capacitors help to alleviate noise as well? Since they're out of phase I'd want them to be as close as possible to cancel out, no?

Anything you can share about the capsule or if it looks familiar Khron?
 
That will do close to nothing to solve noise issues. Perhaps increasing the two 100nF coupling caps to 470nF. Other JFET maybe also a bit. Some really useful data here: Thread 'Comparison of JFETs for mic applications' https://groupdiy.com/threads/comparison-of-jfets-for-mic-applications.86559/

Increase 1G to 2G or even more. Make sure circuit board is very clean in the high-Z area around JFET and capsule.

Increase polarization voltage to 60V or more.

R6 and R7 are quite high. R7 is a major noise adder in this circuit. Around 2k should be feasible, depending on the current that is left for the JFET. Maybe lower the value of R5 for that and increase C6. Zener is at wrong node. Should be at tied to the collectors of the output BJTs. Zener noise can only be partially filtered by C6 due to low impedance of the zener, so it will now be injected in the signal path almost unfiltered. By moving it to the output BJT collectors, R5/C6 will filter noise. Output BJTs also like to see a fixed voltage at the collectors.

And for best headroom and lowest distortion, Source voltage should be at 3V and Drain at 9V. You might have to use a trimpot connected between gnd en the drain and connect the wiper to what is now the gnd connection of R8.

Use the LTspice noise simulation feature to simulate and optimize your circuit.

I hope this helped.

Jan
 
They're a little noisy when "alot" of gain is applied for overhead and or acoustic guitar use.

"Thank you" for attaching very clear photos of the existing circuit board, because "of course" all the existing noise is inherent to the circuit, not necessarily the physical implementation 😁

@jp8 just added many pertinent pointers just as i was typing this up.

As a "bonus" you might want to consider adding a capsule bias supply (to increase sensitivity and signal-to-noise ratio, so you wouldn't need so much preamp gain and subsequent amplification of noise).
 
That will do close to nothing to solve noise issues. Perhaps increasing the two 100nF coupling caps to 470nF. Other JFET maybe also a bit. Some really useful data here: Thread 'Comparison of JFETs for mic applications' https://groupdiy.com/threads/comparison-of-jfets-for-mic-applications.86559/

Increase 1G to 2G or even more. Make sure circuit board is very clean in the high-Z area around JFET and capsule.

Increase polarization voltage to 60V or more.

R6 and R7 are quite high. R7 is a major noise adder in this circuit. Around 2k should be feasible, depending on the current that is left for the JFET. Maybe lower the value of R5 for that and increase C6. Zener is at wrong node. Should be at tied to the collectors of the output BJTs. Zener noise can only be partially filtered by C6 due to low impedance of the zener, so it will now be injected in the signal path almost unfiltered. By moving it to the output BJT collectors, R5/C6 will filter noise. Output BJTs also like to see a fixed voltage at the collectors.

And for best headroom and lowest distortion, Source voltage should be at 3V and Drain at 9V. You might have to use a trimpot connected between gnd en the drain and connect the wiper to what is now the gnd connection of R8.

Use the LTspice noise simulation feature to simulate and optimize your circuit.

I hope this helped.

Jan
May I ask why increasing the 100nf caps to 470nf would do anything? The 100nf caps are already passing everything 10hz and above (10hz is the 3db point created by the hpf of the 100nf and 150k). I guess I should rephrase to why would pushing the hpf lower (into even more inaudible range) would help with noise?
 
That will do close to nothing to solve noise issues. Perhaps increasing the two 100nF coupling caps to 470nF. Other JFET maybe also a bit. Some really useful data here: Thread 'Comparison of JFETs for mic applications' https://groupdiy.com/threads/comparison-of-jfets-for-mic-applications.86559/

Increase 1G to 2G or even more. Make sure circuit board is very clean in the high-Z area around JFET and capsule.

Increase polarization voltage to 60V or more.

R6 and R7 are quite high. R7 is a major noise adder in this circuit. Around 2k should be feasible, depending on the current that is left for the JFET. Maybe lower the value of R5 for that and increase C6. Zener is at wrong node. Should be at tied to the collectors of the output BJTs. Zener noise can only be partially filtered by C6 due to low impedance of the zener, so it will now be injected in the signal path almost unfiltered. By moving it to the output BJT collectors, R5/C6 will filter noise. Output BJTs also like to see a fixed voltage at the collectors.

And for best headroom and lowest distortion, Source voltage should be at 3V and Drain at 9V. You might have to use a trimpot connected between gnd en the drain and connect the wiper to what is now the gnd connection of R8.

Use the LTspice noise simulation feature to simulate and optimize your circuit.

I hope this helped.

Jan
I do thank you though! This isn't my circuit, just what was in the mic. I've moved the Zener location R6 and R7 are 5.1k in the mic, but all the schoeps style mics I've seen have 2.2k there so I'll change those.

Khron, I'll work on getting some images of the board.
 

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