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TDR (Time Domain Reflectometers). Pictures of different TDR probes

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Presentation on theme: "TDR (Time Domain Reflectometers). Pictures of different TDR probes"— Presentation transcript:

1 TDR (Time Domain Reflectometers)

2 Pictures of different TDR probes http://www.sowacs.com/sensors/tdr.html

3 A time-domain reflectometer (TDR) was developed to characterize and locate faults in metallic cables

4 Plus Generator A TDR transmits a short rise time pulse along the conductor. This can be a square wave plus

5 If the conductor is of a uniform impedance ( constant resistance for a plus single) and properly terminated (use of a resistor on the end of the cable)terminated The entire transmitted pulse will be absorbed in the far-end termination and no signal will be reflected toward the TDR.

6 If a impedance discontinuities occurs (broken wire) some of the signal will be sent back towards the source. Increases in the impedance creates a reflection that reinforces the original pulse while decreases in the impedance create a reflection that opposes the original pulse

7 The resulting reflected pulse that is measured at the output/input to the TDR is plotted as a function of time. Because the speed of signal propagation is relatively constant for a given transmission medium, the time can be read as a function of cable length.

8 Soil impact on reflectance time When the two metal rods are put in soil the reflected pulse time and amplitude is a function of the soil dielectric constant which is a function of the soil moisture content Increased water slows the pulse reflectance time

9

10 Measure travel time

11 Rearrange equation 1. L is length of probe or wave guide

12 Volumetric water content function of dielectric constant

13 Principle of Campbell cs616

14 CS 616 Campbell probe

15 Salinity The TDR technique is relatively insensitive to salinity as long as the salinity level is low enough that a useful wave form is returned As salinity levels increase, the signal reflection from the ends of the rods in the TDR probe is lost (amplitude is less). This occurs because of conduction of the signal through the saline soil between the rods. The amount of conduction increases as the soil wets. one can obtain a good wave forms in a very dry saline soil and useless wave forms in the same soil when wet.

16 Advantage /Disadvantage Accurate when calibrated and continuous measurements Affected by high salt content Not as accurate as neutron probe which is not a continuous measurement of soil moisture

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