Solving Interference Issues in Circuit Testing

AI Thread Summary
The discussion focuses on addressing interference issues in circuit testing where a large current heats a material before measuring its resistance. The user seeks advice on whether using power transistors for controlling the heating and measurement circuits would prevent interference, or if a more complex solution is needed. Concerns are raised about the potential impact of the heating circuit on the voltage readings during resistance measurement, particularly with a four-wire Kelvin connection. The possibility of using relays is mentioned, along with a note that small relays typically have a bounce time of a few milliseconds. Effective isolation between circuits is crucial to obtain accurate measurements without interference.
scott_alexsk
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Hello,

I am making a circuit which runs a large current through a material at intervals, heating it, which then temporarily stops to make a resistance measurement. Each individual circuit is not an issue in itself, nor the timing of it since I have a computer interface which can grab analog values and produce digitial 1s.

The issue I need to address is the interference of each circuit's operation with the other's. Do I need to just put a power transistor on each series of connections to the material I am testing for each part of the circuit, or do I need to do something more complicated?

So in other words can I just, let's say, turn on the circuit which measures resistance, by providing an appropriate input to that transistor(or FET) and turn off the section which provides the heating current by providing another input to the other controlling transistor, without the heating circuit significantly interfering with the measuring circuit or vice-versa?

Thanks,
-Scott
 
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Can you just do both simultaneously? Can you measure current and voltage being applied to the material as you are heating it?
 
Well wouldn't that the changing current from my heating circuit, cause the voltage drop to be different across the material, which would in turn provide a different value than expected for my four-wire kelvin circuit, which is simultaneously hocked up to the material. Perhaps I can use relays, what is the average switching speed on those guys?

Thanks,
-Scott
 
scott_alexsk said:
Well wouldn't that the changing current from my heating circuit, cause the voltage drop to be different across the material, which would in turn provide a different value than expected for my four-wire kelvin circuit, which is simultaneously hocked up to the material. Perhaps I can use relays, what is the average switching speed on those guys?

Thanks,
-Scott

Small relays bounce for a few ms, typically.
 

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