My electronic/digital scale drifts? Why?
The answer is ALL scales drift. Some more than others. They should be installed and set up according to the manufacturer’s recommendations to provide repeatable results and eliminate errors and minimize drift. The scales used by reloaders are typically precision scales of varying quality and price but they all consist of two major systems. The primary element is usually a load cell that generates a voltage output proportional to force (weight in this case). The output of this load cell is very linear but the charge in voltage is extremely small. It is also self-compensating for temperature in the normal temperature ranges it is used in.
To be useful the output of the load cell is fed to a very high gain electronic amplifier circuit. This is a multi-component system with components that have both linear and non linear responses to changes in temperature. Because it is high gain, it is very sensitive to temperature. This temperature dependence has a minimal effect on the amplifier gain but does tend to bias the “zero” reading. One of the primary performance specifications for an electronic component is its performance versus temperature. The better the performance the higher the cost. The grading of electronic components is very similar to quality sorting of 22LR ammo such as Lapua or Eley.
To understand drift it helps to understand how the scale measures weight. When a scale is calibrated, it will use two or more datapoints to establish the variation in cell/output to weight. The calibration should be performed with the platen empty, this is without the weighing pan. For those that remember algebra the equation of a straight line is y=mx+b where m is the slope of the line which is the variation in voltage with applied weight, and this slope is determined during calibration. The scale then uses the 0 calibration point as the initial zero/tare reading ( b in the formula) to adjust the reading to zero. Once the pan is placed on the platen a new tare is calculated when the zero/tare button is pressed.
Temperature is not the only source of drift for a scale. Hysteresis of the load cell occurs. This happens when the zero is approached from different directions and is also dependent on time. Placing a heavier weight on a scale will require a longer amount of time for the scale to return to its “zero” condition.
Good laboratory practice is to re-zero the scale BEFORE EVERY SAMPLE IS WEIGHED. This is a step that is often omitted by reloaders. RE-ZEROING eliminates the potential drift issue and is a common automatic feature on higher end scales such as the Fx-120i and the Chargemaster 1500. In some cases, if trying to measure very small weights near zero the auto zero function interferes. The scale sees the minor changes in weight as zero drift and re-zeros.
It is also important to understand that the scale does not use a single point reading but averages readings over time. Not providing enough time for this to occur can also be a source of zero AND weight reading errors.
