An electropermanent magnet key assembly of an information handling system comprising an electropermanent magnet (EPM) having a low-coercivity magnet and a high-coercivity magnet, wherein the EPM is capable of an on state generating a magnetic field and an off state disabling the magnetic field, a key cap, situated atop a pair of scissor plates, capable of downward movement, via action of the scissor plates, from a raised, neutral position in which a surface of the key cap is moved to a depressed position below the neutral position, wherein the downward movement of the key assembly may record a keystroke, a flange operably connected a first scissor plate of the pair of scissor plates and extending opposite of a hinge of the first scissor plate, such that the flange is attracted toward the magnetic field of the EPM situated beneath the pair of scissor plates to urge the first scissor plate to push the key cap to the neutral position in an on state, and a spring exerting a biasing force to rotate a rocker arm toward the flange for urging the flange away from the EPM opposite to the attraction of the magnetic field of the EPM, wherein the effect of the biasing force on movement of the flange is lesser than the effect of the magnetic field generated by the EPM on movement of the flange in the on state.

An electropermanent magnet key assembly of an information handling system comprising an electropermanent magnet (EPM) having a low-coercivity magnet and a high-coercivity magnet, wherein the EPM is capable of an on state generating a magnetic field and an off state disabling the magnetic field, a key cap, situated atop a pair of scissor plates, capable of downward movement, via action of the scissor plates, from a raised, neutral position in which a surface of the key cap is moved to a depressed position below the neutral position, wherein the downward movement of the key assembly may record a keystroke, a flange operably connected a first scissor plate of the pair of scissor plates and extending opposite of a hinge of the first scissor plate, such that the flange is attracted toward the magnetic field of the EPM situated beneath the pair of scissor plates to urge the first scissor plate to push the key cap to the neutral position in an on state, and a spring exerting a biasing force to rotate a rocker arm toward the flange for urging the flange away from the EPM opposite to the attraction of the magnetic field of the EPM, wherein the effect of the biasing force on movement of the flange is lesser than the effect of the magnetic field generated by the EPM on movement of the flange in the on state.

An exemplary apparatus includes a switch, an arm, and a rod. The switch is housed by a housing and includes an actuating tab. The arm is housed by the housing and carries an arm magnet. The arm magnet includes first and second opposed surfaces and an edge surface. The rod carries a float and a rod magnet. The rod is movable between a first rod position and a second rod position at which the rod magnet is in the housing. As the rod moves from the first position to the second position, the edge surface of the arm magnet is configured to move across a facing surface of the rod magnet, thereby moving the arm from a first arm position in which the arm does not actuate the actuating tab to a second arm position in which the arm actuates the actuating tab.

A method for calibrating a device is described. The device accesses magnetometer data of a magnetometer sensor in the device, and accelerometer data of an accelerometer sensor in the device. The device determines a first position and a second position of the device based on the magnetometer data and the accelerometer data. The device determines a first magnetic vector based on the magnetometer data at the first position of the device, and a second magnetic vector based on the magnetometer data at the second position of the device. The device then assigns the first magnetic vector to the first position of the device, and the second magnetic vector to the second position of the device.

A reed switch assembly having a customizable length of activation is disclosed. One embodiment of the reed switch assembly may comprise a reed switch comprising a first reed contact, a second reed contact, a reed switch body enclosing the first reed contact and the second reed contact, and a bias magnet. The bias magnet may be positioned a certain distance away from the reed switch body to close the reed switch by a magnetic field. The reed switch assembly may further comprise a diversion blade that is configured to move in and out of a space between the reed switch body and the bias magnet. The diversion blade positioned in the space may open the reed switch by diverting the magnetic field applied by the bias magnet.

Switch assemblies and switching methods are disclosed. In some embodiments, a switch assembly may include a first blade having a first contact within an enclosed cavity, and a second blade having a second contact within the enclosed cavity. The first and second contacts are operable to make or break contact with one another in response to a magnetic field. The switch assembly may further include a coating formed over each of the first and second contacts, the coating including a titanium layer, a second layer formed over the titanium layer, and a tungsten-copper layer formed over the second layer. In some embodiments, the second layer is copper or molybdenum.

The first transmission mechanism of the present invention includes a first permanent magnet, a first rocking member with a rod-like shape that includes one end at which the first permanent magnet is disposed and is extended in Z-axis direction, and two supporting bodies that rockably support the first rocking member at two different positions in Z-axis direction of the first rocking member. The first rocking member is rocked to move the first permanent magnet by an amount of displacement smaller than an amount of displacement inputted to the first supporting body, which is located on a side of the other end of the first rocking member in the two supporting bodies.

A method for charging an auxiliary voltage source that provides power for at least one additional component, the additional component being in addition to an electric drive that is powered by a main voltage, is described. The method includes electrically connecting a protection and/or control circuit to the main voltage source via a DC-to-DC converter configured for power supply, and to the auxiliary voltage source via a reverse blocking valve. The method further includes electrically connecting the main voltage source to the auxiliary voltage source via a charging device. The method still further includes charging the auxiliary voltage source via the main voltage source.

A magnetic keyboard has a plurality of magnetic keyswitches, and each magnetic keyswitch include a base, a keycap, a supporting device, a magnetic component and a metal thin sheet. The base has at least one engaging structure and a hole. The supporting device has a first support, an end of the first support is movably connected to the engaging structure, and the other end of the first support is movably connected to the keycap. The first support has a magnet portion. The magnetic component is disposed on the base and functioned with the magnet portion to provide a recovering force to the keycap. The metal thin sheet is disposed under the base and has a bendable cantilever portion covering the hole. While the cantilever portion is bent by an external force, the magnetic component can be removed through the hole.

In an embodiment of the present disclosure, a condensate level switch mounting assembly includes a condensate level switch having a mounting frame, a first bracket configured to fixedly attach to a condensate drain pan, and a second bracket having a mounting plate configured to engage with the mounting frame of the condensate level switch to secure the condensate level switch to the second bracket. The condensate level switch mounting assembly further includes a fastener assembly configured to couple the second bracket to the first bracket such that an angular position of the second bracket is adjustable relative to the first bracket.