How can I reduce cable capacitance for my Schering bridge?

  • Context: Graduate 
  • Thread starter Thread starter enamul101b
  • Start date Start date
  • Tags Tags
    Cable Capacitance
Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
2 replies · 8K views
enamul101b
Messages
1
Reaction score
0
Dear Readers,

I am trying to build a Schering bridge to measure capacitance change for my research. I need to reduce the cable (line) capacitance to a minimum. I am using an ac 4V (rms), 250 KHz supply.

I tried to use two separate coaxial cables to connect the capacitor plates. The signal goes through the inner cable and the outer wrap wire is grounded in both cables (this should work as Faraday cage). But unfortunately I see the line capacitance increases for that.

Please suggest me what should I do to minimize the line capacitance.

Thanks in advance for helping me out.

Kabir
 
Physics news on Phys.org
Use the highest impedance and the highest signal velocity coaxial cable you can get. This based on the following two equations for coax cables:

Cable impedance is Z = sqrt(L/C)
signal velocity = βc = 1/sqrt(LC)

where L = inductance per meter, and C = capacitance per meter.
 
enamul101b said:
Dear Readers,

I am trying to build a Schering bridge to measure capacitance change for my research. I need to reduce the cable (line) capacitance to a minimum. I am using an ac 4V (rms), 250 KHz supply.

I tried to use two separate coaxial cables to connect the capacitor plates. The signal goes through the inner cable and the outer wrap wire is grounded in both cables (this should work as Faraday cage). But unfortunately I see the line capacitance increases for that.

Please suggest me what should I do to minimize the line capacitance.

Thanks in advance for helping me out.

Kabir

To minimize the capacitance, you can "bootstrap" the shields. Drive each side's shield with a buffered version of the test signal. This basically eliminates the capacitive current to charge up the wire with respect to the shield in each coax.