Lysimeter - 6 Wire Full Bridge; Lysimeter Weighing Mechanism - Campbell CR510 Operator's Manual

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Operator's manual (21 pages)

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FIGURE 7.9-1. Wiring Diagram for Full Bridge Pressure Transducer

7.10 LYSIMETER - 6 WIRE FULL BRIDGE

When a long cable is required between a load cell

and the CR510, the resistance of the wire can

create a substantial error in the measurement if

the 4 wire full bridge (Instruction 6) is used to

excite and measure the load cell. This error arises

because the excitation voltage is lower at the load

cell than at the CR510 due to voltage drop in the

cable. The 6 wire full bridge (Instruction 9) avoids

this problem by measuring the excitation voltage at

the load cell. This example shows the errors one

would encounter if the actual excitation voltage

was not measured and shows the use of a 6 wire

full bridge to measure a load cell on a weighing

lysimeter (a container buried in the ground, filled

with plants and soil, used for measuring

evapotranspiration).

The lysimeter is 2 meters in diameter and 1.5

meters deep. The total weight of the lysimeter

with its container is approximately 8000 kg. The

lysimeter has a mechanically adjustable counter-

balance, and changes in weight are measured

with a 250 pound (113.6 kg) capacity Sensotec

SECTION 7. MEASUREMENT PROGRAMMING EXAMPLES

CR510

FIGURE 7.10-1. Lysimeter Weighing Mechanism

Model 41 tension/compression load cell. The

load cell has a 4:1 mechanical advantage on the

lysimeter (i.e., a change of 4 kg in the mass of the

lysimeter will change the force on the load cell by

1 kg-force or 980 N).

The surface area of the lysimeter is 3.1416 m

31,416 cm

, so 1 cm of rainfall or evaporation

results in a 31.416 kg change in mass. The load

cell can measure ±113.6 kg, a 227 kg range. This

represents a maximum change of 909 kg (28 cm of

water) in the lysimeter before the counterbalance

would have to be readjusted.

There is 1000 feet of 22 AWG cable between the

CR510 and the load cell. The output of the load cell

is directly proportional to the excitation voltage.

When Instruction 6 (4 wire half bridge) is used, the

assumption is that the voltage drop in the

connecting cable is negligible. The average

resistance of 22 AWG wire is 16.5 ohms per 1000

feet. Thus, the resistance in the excitation lead

going out to the load cell added to that in the lead

coming back to ground is 33 ohms. The resistance

7-9

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Lysimeter - 6 Wire Full Bridge; Lysimeter Weighing Mechanism - Campbell CR510 Operator's Manual

7.10 LYSIMETER - 6 WIRE FULL BRIDGE

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