Load Cell Calibration Mv V

Supply voltage v this is the excitation voltage in volts applied to the load cell wheatstone bridge strain gauge circuit.

Load cell calibration mv v.

In this example the actual non linearity is about 0 031 using mv v values and 0 032 when using calculated values which is well below the specification. If the load cell s sensitivity is 3 mv v and the excitation voltage provided by the converter is 10 volts then the divider will be 30 millivolts or 0 03 volts. When shopping for load cells you are typically provided with two pieces of information about the load cell excitation voltage v orvdc and output mv. This load cell sensitivity value can be used to convert the load cell s output.

Most quality load cells will come with a factory load cell calibration sheet which specifies the actual sensitivity rating for that individual load cell. This equates to 50 mv per volt or has a 50 1 ratio. Figure 3 above is an example of a morehouse calibration shear web load cell with a non linearity specification of better than 0 05 of full scale. This load cell sensitivity rating is specified on a load cell data sheet often in the 1 mv v 3 mv v range.

Divide the product from step 2 2 7 volt pounds by sensitivity in millivolts volt times the excitation voltage. Span sensitivity mv v this is the full span output per supply volt characteristic for the load cell wheatstone bridge. The millivolt output of a non amplified load cell is linearly proportional to the excitation voltage. If a load cell has a 5 volt dc vdc excitation voltage and a 0 250 mv output the resultant ratio is 250mv 5vdc.