A gauge for determining the operational viability of a device that requires that a consumable or otherwise erodible material for safe and/or efficient operation reside along or near an inside wall of a cavity, for example, a fuse tube containing an ablative arc-extinguishing material as found in a fused cutout, is provided, which gauge measures whether a sufficient quantity of the material to be consumed remains.

Various embodiments of a wearable device for detecting temperature of objects when in close proximity or in direct contact with an object and providing visual, audio and haptic feedback if an adverse temperature is detected are disclosed herein.

A small thin display unit that can be installed in the flight deck for displaying only flight crew-selected tactical information needed for the task at hand. The flight crew can select the tactical information to be displayed by means of any conventional user interface. Whenever the flight crew selects tactical information for display, the user interface sends a corresponding request for tactical information to a computer system. The computer system processes the request, including periodically retrieving measured current values or computing current values for the requested tactical parameters and returning those current tactical parameter values to the display unit for display.

An electronic equipment has a rotational operation member that can be downsized and has high detection reliability. The electronic equipment includes a rotational operation member, a click mechanism providing a click feeling at each predetermined rotation angle, and a magnetic field generating member. A first magnetic field detecting part detects variation of a first direction-related magnetic field generated by the magnetic field generating member, and a second magnetic field detecting part detects a variation of a second direction-related magnetic field generated by the magnetic field generating member. A rotation amount and a rotation direction of the rotational operation member are calculated based on the variations of the first direction-related magnetic field and the second direction-related magnetic field caused by a change in a positional relation of the first and second magnetic field detecting parts with the magnetic field generating member due to the rotation of the rotational operation member.

A gauge for determining the operational viability of a device that requires that a consumable or otherwise erodible material for safe and/or efficient operation reside along or near an inside wall of a cavity, for example, a fuse tube containing an ablative arc-extinguishing material as found in a fused cutout, is provided, which gauge measures whether a sufficient quantity of the material to be consumed remains.

An electronic equipment has a rotational operation member that can be downsized and has high detection reliability. The electronic equipment includes a rotational operation member, a click mechanism providing a click feeling at each predetermined rotation angle, and a magnetic field generating member. A first magnetic field detecting part detects variation of a first direction-related magnetic field generated by the magnetic field generating member, and a second magnetic field detecting part detects a variation of a second direction-related magnetic field generated by the magnetic field generating member. A rotation amount and a rotation direction of the rotational operation member are calculated based on the variations of the first direction-related magnetic field and the second direction-related magnetic field caused by a change in a positional relation of the first and second magnetic field detecting parts with the magnetic field generating member due to the rotation of the rotational operation member.

A rotary encoder and rotary encoder system that provides rotation detection and generates tactile feedback using a single magnetic mechanism and without relying on mechanical detects. The rotary encoder utilizes a ring magnet attached to a knob, two Hall Effect sensors that detect movement information for the processor, and magnets that are mounted to the surface of the platform. As the knob and multipole ring magnet get rotated, the ring magnet is subjected to opposing forces due to the magnets mounted to the platform surface, causing an unstable position that is experienced as tactile feedback by the user rotating the knob. Releasing the knob snaps the magnetic ring into one of many fixed positions, thus providing further tactile feedback.

Disclosed is a device for entering an input through a rotary motion, including a rotating body, and a fixed body to which the rotating body is coupled and rotates, wherein a first magnetic material and a second magnetic material are disposed on the rotating body and the fixed body, respectively, such that a clicking sensation to the rotation of the rotating body is generated by a magnetic force between the first and second magnetic materials, and an optical sensor and one or more magnetic sensors are disposed on the fixed body such that an amount, a direction, or a speed of rotation of the rotating body is recognized by the optical sensor, and wherein the one or more magnetic sensors detect the magnetic force.

A rotary encoder and rotary encoder system that provides rotation detection and generates tactile feedback using a single magnetic mechanism and without relying on mechanical detects. The rotary encoder utilizes a ring magnet attached to a knob, two Hall Effect sensors that detect movement information for the processor, and magnets that are mounted to the surface of the platform. As the knob and multipole ring magnet get rotated, the ring magnet is subjected to opposing forces due to the magnets mounted to the platform surface, causing an unstable position that is experienced as tactile feedback by the user rotating the knob. Releasing the knob snaps the magnetic ring into one of many fixed positions, thus providing further tactile feedback.

A device and method for controlling rotation recognition units that detect the rotation of a rotating body in an electronic device are presented. The electronic device includes an outer housing, a rotary member disposed adjacent to, or at least in partial contact with the housing, a first sensor that detects rotation of the rotary member relative to the housing through a first physical change, a second sensor that detects rotation of the rotary member relative to the housing through a second physical change, a battery disposed in the housing, a processor electrically connected to the battery, the first sensor, and the second sensor, and a memory electrically connected to the processor, wherein the memory stores instructions that, when executed, cause the processor to selectively control the operation of at least one of the first and second sensor based on at least one of the state of the electronic device and an application program that is being executed by the processor.