The three main components of the inductive touch button technology are the inductive sensor, target surface, and an inductance-to-digital converter. As shown in Figure 1-1 when a force is applied on the target surface, the material deflects slightly, reducing the distance between the inductive sensor and the target surface (D_TARGET). This change in D_TARGET changes the inductance of the sensor (Δ Sensor Inductance ∝ Δ D_TARGET), which is measured by the inductance-to-digital converter. When the force is removed the surface returns to its original unstressed shape.

Figure 1-1 Inductive Touch Components

The primary factors that contribute to the sensitivity⁽¹⁾of an inductive touch button are:

Inductive sensing relies on the interaction of EM fields generated by the inductive sensor and the eddy currents⁽²⁾ being induced on the conductive surface. The amount of eddy currents induced on the target surface decreases with an increase in D_TARGET as the target conductive surface now captures a smaller portion of the electromagnetic field generated by the inductive sensor. In turn, the physical size of electromagnetic field lines generated by an inductive sensing coil is directly proportional to the diameter of the sensor. Figure 1-2 shows how to set D_TARGET as a percentage of the coil diameter for inductive touch.

Figure 1-2 Button Sensitivity as a Function of D_TARGET

A material with higher electrical conductivity (σ) is a better target for inductive sensing technologies. The amount of eddy currents generated on the target surface are directly related to σ of the target material making higher conductivity materials such as copper or aluminum optimum targets for inductive touch buttons. Figure 1-3 shows the normalized inductance response plotted against D_TARGET as a percentage of the coil diameter for different target materials. Copper and aluminum exhibit larger shifts in inductance with target movement resulting in a higher measurement resolution.

Figure 1-3 Button Sensitivity as a function of the Electrical Conductivity of Target

Because inductive sensing works on the principle of eddy currents, which are a surface phenomenon, a very thin layer of a conductive material (for example, 0.08 mm of copper) can be added to non-conductive surfaces like plastic or glass to implement an inductive touch interface.