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Load cell shunt calibration is a cost-effective means to confirm that the load cell and indicator system are not experiencing significant drift or potential damage.
Load cell shunt calibration involves introducing a known electrical resistance (shunt resistor) in parallel with the load cell, allowing for modifications to the output signal.
The shunt resistor simulates a specific load condition, and the indicator system should display a corresponding reading.
This reading can be compared to the expected output based on the known resistance of the shunt resistor.
This practice uses a known resistor across the load cell bridge (ex. 30k Ohm) and monitors the system. Load cell shunt calibration involves simulating the input of strain by using a resistance value. It is accomplished by shunting or connecting in parallel (shunted) across the load cell terminals.
If a discrepancy is noted, it strongly suggests that the system should be compared to a recognized standard, and calibration may be required.
The main benefit is that it is a quick check to ensure the meter and load cell are stable to some degree of uncertainty. Usually, a single shunt value suffices for stability verification. However, employing a load cell shunt calibration for positive and negative values can offer extra reassurance, especially in systems susceptible to tampering, ensuring that nothing has changed on the meter's side.
Here's a basic overview of how load cell shunt calibration works:
Note: The end-user should perform this at some defined frequency. It is likely too late to spot differences when it gets to the calibration laboratory. There may have been six months to whatever period between calibrations, which defeats the purpose of using the shunt.
A load cell shunt calibration is an inexpensive check to decrease overall risk by spotting trends before too much time has elapsed. It's important to emphasize that a proper procedure should be established to utilize load cell shunt calibration correctly.
Consistently applying netting or pressing tare on the meter before employing load cell shunt calibration can significantly reduce the effectiveness of detecting a load cell overload.
A Load cell shunt calibration Example:
A Worked Example to Calculate Approximate mV/V Output.
In the above example, a 59K shunt is used across a 350 OHM bridge load cell, and the expected output is 1.47866 mV/V. Of course, there will likely be a slight difference in the actual value as the cable length will have additional resistance.
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