To provide a controller and an information processing system capable of providing a click feeling and an operation sound with a simpler mechanism. The controller includes a hollow portion, a freely movable first magnet placed in the hollow portion, a second magnet fixed to an outer side of the hollow portion, and a bottom surface having a tilted shape with respect to a ground surface.

Various embodiments of a detent assembly are disclosed. The detent assembly includes a base having a major surface, a first magnetic region, and a second magnetic region, where the first and second magnetic regions are disposed on or within the major surface. Each of the first and second magnetic regions includes a magnetic polarity. The detent assembly further includes an actuator connected to the base, where the actuator includes a major surface and a magnetic region disposed on or within the major surface. The magnetic region of the actuator includes the same magnetic polarity as the magnetic polarity of the first and second magnetic regions of the base. The base and the actuator are adapted to move relative to each other. Further, the first and second magnetic regions of the base repel the magnetic region of the actuator to define detent positions between the base and the actuator.

A push-button with a receptacle and a cover plate, an actuating button actuatable in translation between two positions, a rest position and a pushed-in position, the cover plate being arranged at the periphery of the actuating button, a device for guiding the actuating button in translation between the two positions, and a return device for returning the actuating button from the pushed-in position toward the rest position. The guiding device include at least a pin including a bent rod shaped to have a first part pivotally mounted on a fastening unit of the actuating button and a second part pivotally mounted on a fastening unit of the cover plate, and the return device are designed to act on the pin by mechanical or magnetic effect.

A lighting control operating unit generating digital adjusting commands which are transmitted to a processing unit via a data link includes several control elements, including key buttons, slide controls and/or rotary controls, which are disposed at the upper side of a housing. At least one dual encoder is provided in a control panel of the lighting control operating unit allowing users to enter input values. The dual encoder presents a first shaft rotatably mounted in a housing, and a second shaft mounted in the housing so as to be coaxially rotatable, and corresponding first and second rotation signal generators Both shafts include actuating elements transmitting adjusting movements. The actuating elements are a rotary disk and/or a rotary swivel configured to be coaxially turned in opposite directions.

According to various embodiments, an input device may be provided. The input device may include: a housing with a lower portion and an upper portion; a depressible button provided in the upper portion; a first magnetic component coupled to the depressible button and configured to move at least substantially along an axis when the depressible button is depressed; a second magnetic component coupled to the lower portion at least substantially at the axis, wherein at least one of the first magnetic component and the second magnetic component includes an electromagnet; an interface configured to receive control information from a computing device external to the input device; and a control circuit configured to control the electromagnet based on the control information.

A lighting control console for controlling a lighting system includes at least one digital processor, at least one digital memory, and at least one display device configured to graphically depict graphic elements for users. At least one dual encoder is provided in the control panel, which allows users to enter input values. The dual encoder presents a first shaft rotatably mounted in a housing with a first rotation signal generator and a second shaft mounted in the housing so as to be coaxially rotatable at the dual encoder. Both shafts include actuating elements transmitting adjusting movements onto the shafts. The actuating elements are embodied in a rotary disk and/or of a rotary swivel disposed in the control panel of the lighting control console and configured to be coaxially turned in opposite directions.

A lighting control console for controlling a lighting system includes at least one digital processor, at least one digital memory, and at least one display device configured to graphically depict graphic elements for users. At least one dual encoder is provided in the control panel, which allows users to enter input values. The dual encoder presents a first shaft rotatably mounted in a housing with a first rotation signal generator and a second shaft mounted in the housing so as to be coaxially rotatable at the dual encoder. Both shafts include actuating elements transmitting adjusting movements onto the shafts. The actuating elements are embodied in a rotary disk and/or of a rotary swivel disposed in the control panel of the lighting control console and configured to be coaxially turned in opposite directions.

According to various embodiments, an input device may be provided. The input device may include: a housing with a lower portion and an upper portion; a depressible button provided in the upper portion; a first magnetic component coupled to the depressible button and configured to move at least substantially along an axis when the depressible button is depressed; a second magnetic component coupled to the lower portion at least substantially at the axis, wherein at least one of the first magnetic component and the second magnetic component includes an electromagnet; an interface configured to receive control information from a computing device external to the input device; and a control circuit configured to control the electromagnet based on the control information.

The present disclosure includes a rotary dial assembly having a holder and a dial portion rotatably coupled to the holder. A plurality of dial magnets are fixed to the dial portion. A holder magnet is on a side of the holder opposite to the dial portion. The holder magnet is configured to attract or repel the plurality of dial magnets as the dial portion is rotated to resist rotation of the dial portion.

A passive haptic interface includes a first element which is rotatably movable about an axis or translatably movable along an axis, the first movable element rotating or moving opposite a second fixed element. The first movable element has a first plurality of magnetic poles spaced periodically at a pole pitch Ps and in the direction of movement, and the second fixed element has a second plurality of magnetic poles periodically spaced at a pole pitch Pr and in the direction of movement, where Ps and Pr are different numbers. A periodic stress is created by the magnetic interaction between the first movable element and the second fixed element in a period Pt. The pole pitches Ps and Pr are chosen such that Pt is strictly less than the smallest of the pitches Ps and Pr.