An exemplary contactor assembly includes, among other things, a movable contact that transitions relative to a plurality of stationary contacts back and forth between a closed position and an open position. The movable contact contacts at least one of the stationary contacts with an initial contact surface and then a final contact surface when the movable contact is in the closed position. An exemplary contactor transitioning method includes, among other things, changing areas of contact between a movable contact and a plurality of stationary contacts when the movable contact is in a closed position with the plurality of stationary contacts.

There is provided a method of driving a shape memory alloy haptic assembly comprising an actuator comprising shape memory alloy that is arranged on actuation to provide a haptic effect, the method comprising supplying drive current to the actuator successively during a pre-heating period in which the temperature of the shape memory alloy is raised without causing the shape memory alloy to provide the haptic effect and during an actuation period in which the temperature of the shape memory alloy is raised so as to cause the shape memory alloy to provide the haptic effect. A shape memory alloy haptic assembly is also provided.

The electromagnetic relay includes a fixed terminal, a fixed contact connected to the fixed terminal, a movable contact piece moving in an opening direction and a closing direction with respect to the fixed terminal, a movable contact connected to the movable contact piece and being arranged to face the fixed contact, a coil generating an electromagnetic force to move the movable contact piece, and a drive circuit controlling a current to the coil. The drive circuit increases the current at a first increase rate in a first period that includes a period from a start time when the current starts to flow in the coil to before a contact time point at which the movable contact contacts the fixed contact. The drive circuit increases the current at a second increase rate larger than the first increase rate in the second period that includes a period after the contact time point.

The disclosure relates to a contact slide unit for a switching unit, including a contact slide inside which a movable contact piece is guided, wherein the contact piece is biased from one side by a contact load spring. The disclosure also relates to a method for assembling the contact slide unit. The disclosure is characterized in that the movable contact piece is mounted in a winding interstice between two windings of the contact load spring.

A field device comprising first and second tines; first and second rods coupled to the first and second tines; a coil arrangement fixed to the first rod; a magnet fixed to the second rod, opposite the coil arrangement; excitation circuitry coupled to the coil arrangement and controllable to provide a time-varying current to the coil arrangement, resulting in vibration of the first tine in relation to the second tine; sensing circuitry coupled to the coil arrangement and configured to provide a sensing signal indicative of a change in at least one property of the vibration of the first tine in relation to the second tine; and measurement control circuitry coupled to the excitation circuitry and the sensing circuitry for controlling operation of the excitation circuitry.

Systems, devices and methods for the management of glucose levels in the body of patient featuring user interface input mechanisms configured to provide haptic feedback to the user are provided.

A power-saving earphone includes a casing, an audio member, a sensing member, and an elastic soft sheath. The casing has first and second grounding paths provided separately. The audio member is disposed in the casing and includes a processing unit electrically connected with the first grounding path. The sensing member includes a controlling unit electrically connected with the second grounding path. The elastic soft sheath is disposed on the casing and capable of being elastically deformed by an external force. When the elastic soft sheath is not deformed, the first and second grounding paths form an open circuit. When the elastic soft sheath is elastically deformed by the external force, the elastic soft sheath electrically connects the first and second grounding paths, enabling the sensing member to function.

A power-saving earphone includes a casing, an audio member, a sensing member, and an elastic soft sheath. The casing has first and second grounding paths provided separately. The audio member is disposed in the casing and includes a processing unit electrically connected with the first grounding path. The sensing member includes a controlling unit electrically connected with the second grounding path. The elastic soft sheath is disposed on the casing and capable of being elastically deformed by an external force. When the elastic soft sheath is not deformed, the first and second grounding paths form an open circuit. When the elastic soft sheath is elastically deformed by the external force, the elastic soft sheath electrically connects the first and second grounding paths, enabling the sensing member to function.

The disclosure relates to an electromagnetic switch, comprising: an armature; a slider configured to manually move to actuate the armature; and a deformable force transfer element positioned between the slider and the armature, wherein the slider is configured to be pressed against the deformable force transfer element to actuate the armature with a press force, and wherein the deformable force transfer element is configured to deform when a press force threshold value is exceeded to limit a transferable force from the slider onto the armature.

A non-contact type coaxial switch that eliminates all contacts and inner conductors. The switch includes a stator/coax base assembly and a rotor. The stator/coax base assembly is fixed, while the rotor is rotatably mounted to the stator/coax base assembly and eliminates all contacts and inner conductors. The rotor is disposed between bearings, and consists of waveguide paths that couple between selected coax connectors. When the rotor is rotated, different selected coax connectors occur. For other arrangements selected, the rotor can switch between a condition of coax and waveguide outputs. The rotor, between bearings, consists of waveguide paths which couple between selected coax connectors. When the rotor is rotated, a different selected coax connector occurs. For other arrangements selected, the rotor can switch between a combination of coax and waveguide outputs. The switch can assume many configurations. For example, a Double-Pole-Double-Throw (DPDT) configuration; a 3 and 4 Way R-Type configuration; a Single-Pole-Multiple-Throw (SPMT) configuration; a T-Switch configuration; and a Multiple-Pole-Multiple-Throw (MPMT) configuration.