How Stable On Resistance Improves Long Term Measurement Precision

You depend on stable on-resistance to minimize contact variability so your readings remain consistent over months or years. By controlling thermal, aging, and mechanical influences you reduce measurement drift, lower calibration frequency, and extend device reliability. Practical design choices-component selection, controlled stress, and real-time compensation-help you maintain predictable long-term accuracy [...]

Read More

How Hysteresis Affects Sensor Accuracy and Stability

This guide explains how hysteresis in sensors creates offset and delayed responses that degrade accuracy and long-term stability, and shows you how to identify and mitigate its effects. Hysteresis can cause systematic measurement errors and, in safety-critical systems, dangerous false readings, yet it can also provide beneficial noise damping and [...]

Read More