A microelectromechanical button device is provided with a detection structure having: a substrate of semiconductor material with a front surface and a rear surface; a buried electrode arranged on the substrate; a mobile electrode, arranged in a structural layer overlying the substrate and elastically suspended above the buried electrode at a separation distance so as to form a detection capacitor; and a cap coupled over the structural layer and having a first main surface facing the structural layer and a second main surface that is designed to be mechanically coupled to a deformable portion of a case of an electronic apparatus of a portable or wearable type. The cap has, on its first main surface, an actuation portion arranged over the mobile electrode and configured to cause, in the presence of a pressure applied on the second main surface, a deflection of the mobile electrode and its approach to the buried electrode, with a consequent capacitive variation of the detection capacitor, which is indicative of an actuation of the microelectromechanical button device.

The detection module comprises an elastic conductive blade having first and second ends and a central portion therebetween, with the blade being designed to be driven axially by a control rod in order to occupy three distinct positions between the pulled position and the end position of the rod: a pulled position, an end position, and an intermediate position. Two electrical contacts are designed to detect the end position and the pulled position of the rod, respectively. The blade is designed to pivot at its first end when the rod passes from the intermediate position to the pulled position, or vice versa. The blade is also designed to undergo elastic deformation when the rod passes between the intermediate position and the end position so as to participate substantially in the restoring force of the rod toward the intermediate position when the axial activating force applied to the rod by a user is released.

A sealed button assembly including a button cap, a push rod, a button retainer, and a bracket is described. The bracket can couple to the button retainer which itself can interlock with the button cap and push rod through a counterbore, the counterbore being defined in a sidewall of the housing of an electronic device.

A haptic actuator may include a housing, at least one coil carried by the housing, and a field member having opposing first and second sides. The haptic actuator may also include a respective at least one flexure bearing mounting each of the first and second sides of the field member to be reciprocally movable within the housing responsive to the at least one coil. Each flexure bearing may include at least one flexible member having a wishbone shape with two diverging arms joined together at proximal ends and having spaced distal ends operatively coupled between adjacent portions of the field member and the housing.

A haptic actuator may include a housing, at least one coil carried by the housing, and a field member having opposing first and second sides. The haptic actuator may also include a respective at least one flexure bearing mounting each of the first and second sides of the field member to be reciprocally movable within the housing responsive to the at least one coil. Each flexure bearing may include at least one flexible member having a wishbone shape with two diverging arms joined together at proximal ends and having spaced distal ends operatively coupled between adjacent portions of the field member and the housing.

A switch module for an electronic device detects translational inputs and defines at least portion of a conductive path from an input surface of the electronic device to a processing unit of the electronic device. The switch module may be a component of a crown assembly for detecting rotational inputs, translational inputs, touch inputs and/or biological signals such as electrocardiogram (ECG) signals. The switch module may include a conductive dome and a friction guard that is positioned between the conductive dome and the actuation member of the crown assembly. The conductive dome and/or the friction guard may define at least a portion of the conductive path from the input surface to the processing unit.