Inductive touch buttons can take on a variety of shapes, such as circular, oval, or rectangular. In designing the button sizes and geometries, it is important to consider the amount of deflection that can be obtained for a given material, metal thickness, desirable force, and so forth. In the case of circular buttons, the diameter of the button determines its rigidity or how much deflection can be obtained, assuming all other parameters are kept the same. For example, if a circular 0.6-mm thick aluminum button is pressed with 1 N uniform force, a button of 10-mm diameter has a peak deflection of about 90 nm, while a button of 20-mm diameter would have a peak deflection of about 350 nm. The Metal Deflection tab of the LDC Calculations Tool provides an estimate of the metal deflection for a specified button material and geometry. The exact deflection profile can be obtained through mechanical simulation tools.