https://youtube.com/shorts/zpMh56rB2...P00zKYWhw03HdI I played around a bit with adding discrilination on the sd 2000 both channels work fine here is channel 1 on the recording I spent most of my time on noise removal here no noise elimination plug and variable front circuit gain added.

Hi friends, can you email me the sd2000 or 2200 gerber files or pcb file??
[email protected]
thank you​

’ve gone through the comments several times — 66 pages in total — my eyes are almost worn out. I redrew the schematic based on ZED’s drawings and modified the battery level display circuit (CCT). I used a large number of MLCC capacitors and only a few film capacitors in certain sections. I’m not sure whether it will work successfully, but if it does, I will share the files.​ image widget

I’m not sure whether NP0/C0G capacitors can be directly substituted for film capacitors

Do the official circuit boards and chip power pins all have decoupling capacitors? I've noticed that schematics almost never include power decoupling capacitors like 100nF.

Do the official circuit boards and chip power pins all have decoupling capacitors? I've noticed that schematics almost never include power decoupling capacitors like 100nF.

That they definitely have 100n on the positive and negative terminal according to gnd. And tantalum in some places.

How about I put up the schematic for a design built with STM32 , ADC input, demods done inside the processor, auto ground balance, but I would need to get permission from the software engineer as it has adaptive filtering for emi.

Hello! I encountered an issue while taking measurements: the -5V rail is functioning normally, but the +5V rail measures only around 0.1V. How should I go about troubleshooting to identify which specific section is responsible for the missing +5V?

The battery voltage is 6V. The low-battery detection circuit is functioning correctly; the LED flashes when the voltage drops below the threshold. The voltage measured between pins 2 and 3 of the LM336 is 2.5V. Test points at pins 2, 10, and 12 of the CD4093 measure a frequency of 62.5 kHz with a 50% duty cycle.

If the red connecting wires shown in the diagram are connected together, will this result in an abnormal +5V output?

If the red connecting wires shown in the diagram are connected together, will this result in an abnormal +5V output?​

N-channel MOSFET: PIN-D is connected to a 150 µH inductor, and PIN-S is connected to the negative terminal (-VB) of a 6V battery. Is this connection correct?​

Check if there is a frequency on the gate and drain of the mosfet transistor that enables the positive voltage of the 2n700 or that you put in, if the frequency exists it would mean that the mosfet is not working! There I also tried a bipolar transistor for example bc547 and I get 5v. The line that connects to the battery drop has nothing to do with the positive voltage! Maybe you have somewhere connected not to the mosfet that regulates 5v but to the line for voltage 5v? If something in the connection is faulty for example some component that is powered by the 5v line there will be no 5v voltage present at the output of the 2n7000 or whatever you are using at that location for that line or rail. I would remove the components from the pcb if you have a base and check the voltage, and if there is a voltage of 9.9v I would put back one component at a time and that way you can see which component is problematic or possibly there is a short circuit. Because of such problems that can occur when I solder components, I first solder the components that are in charge of powering the integrated circuits and only when I check and determine that there is normal power supply at the control points or lines, after that I solder the other components on the pcb.