M
mike
I want to locate some pipes in my yard.
I had the locator people in, but they stick to their own
stuff. City won't help with sewer and water lines on the property.
So, being cheap, I set out to do my own location.
I wound a coil on a ferrite C-core and stuck it into the microphone
input on my Dell Axim X51v PDA.
The coil sensitivity peaks around 5kHz., and the utility was using 8kHz.,
so I figgered, "close enough". Clamped the function generator onto the
pipe and ground rod.
The FFT running on the PDA separates the signal nicely and has huge
dynamic range.
Works, but the detection path is very wide.
Ok, so need two coils in series to null at the pipe.
Problem is that I can't find any info on the actual physical
arrangement of the coils to accomplish this.
Everything I found was about crack detection in metals.
I'd rather not reinvent the wheel.
Anybody have any suggestions on how to construct a practical
differential current probe for pipe location?
Thanks, mike
I had the locator people in, but they stick to their own
stuff. City won't help with sewer and water lines on the property.
So, being cheap, I set out to do my own location.
I wound a coil on a ferrite C-core and stuck it into the microphone
input on my Dell Axim X51v PDA.
The coil sensitivity peaks around 5kHz., and the utility was using 8kHz.,
so I figgered, "close enough". Clamped the function generator onto the
pipe and ground rod.
The FFT running on the PDA separates the signal nicely and has huge
dynamic range.
Works, but the detection path is very wide.
Ok, so need two coils in series to null at the pipe.
Problem is that I can't find any info on the actual physical
arrangement of the coils to accomplish this.
Everything I found was about crack detection in metals.
I'd rather not reinvent the wheel.
Anybody have any suggestions on how to construct a practical
differential current probe for pipe location?
Thanks, mike