A lighting control console for controlling a lighting system includes digital adjusting commands being generated in the lighting control console that are transmitted to the lighting system via data links. The lighting control console includes at least one slide control for inputting operating commands via linear displacement of a control knob protruding from the upper side of the console housing. The upper side of the console housing includes a slit for each slide control. The slide control is fastened to said electronic circuit board and not to any fastening point on the console housing.

A lighting control console for controlling a lighting system includes digital adjusting commands being generated in the lighting control console that are transmitted to the lighting system via data links. The lighting control console includes at least one slide control for inputting operating commands via linear displacement of a control knob protruding from the upper side of the console housing. The upper side of the console housing includes a slit for each slide control. The control knob is connected to the slide control via the slit. A tactile sensor system provided at the slide control can detect when the user touches the control knob.

A multiple Hirth joint for permitting linear and angular adjustment of an upper control arm with respect to a lower control arm. The joint includes a multiple Hirth interface having a slot through it, a confronting single Hirth interface, and an actuator. The actuator permits manual loosening and tightening of the multiple Hirth interface and single Hirth interface to permit linear and angular adjustment. Loosening of the actuator simultaneously permits linear and angular adjustment and tightening of the actuator simultaneously lock the joint into the selected linear and angular position.

An active inceptor apparatus and method for operating a machine. The apparatus comprises a stick member having a grip portion, the stick member being pivotably mounted relative to a housing. It further comprises a position sensor responsive to, and for generating signals indicative of, stick member position. A force sensor is provided on the stick member responsive to, and for generating signals indicative of, force applied to the stick by a user. The apparatus also includes a control unit operable to receive the position and force signals from the position and force sensors respectively. The control unit is operable to process the signals according to a predetermined relationship to determine a value FD indicative of force applied to the stick member relative to displacement of the stick member. The control unit is also operable to generate machine control signals as a function of position signals and force signals in dependence upon the value FD, for communication to the machine.

A pressure compensating button can include a depressible interface. The depressible interface can define an external surface of the electronic device. The button can include a tactile switch. The button can include a first pressure accumulator, such as a first piston or plunger. The first pressure accumulator can be associated with the depressible interface. The first pressure accumulator can be configured to receive a first hydrostatic pressure. The button can include a second pressure accumulator, such as a second piston or plunger. The second pressure accumulator can be configured to receive a second hydrostatic pressure. The second pressure accumulator can counteract the first pressure accumulator, such as via a mechanical linkage, to limit an actuation of the tactile switch via the first hydrostatic pressure. Additional systems and methods are also disclosed.

A peripheral device may include a body. The device may include a scroll wheel rotatably coupled with the body. The scroll wheel may include a ferromagnetic rotor. The rotor may be generally annular and may define an open interior. The rotor may define a first plurality of teeth arranged about a periphery of the open interior. The device may include a stator disposed within the open interior. The stator may define a second plurality of teeth that are alignable with the first plurality of teeth. The stator may include a plurality of electro-permanent magnets. Each of the electro-permanent magnets may be disposed within a conductive coil. The device may include a position sensor that is configured to detect an angular position of the rotor. The device may include control circuitry that controls delivery of current to the electro-permanent magnets of the stator to controls a speed of the scroll wheel.

A peripheral device may include a body. The device may include a scroll wheel rotatably coupled with the body. The scroll wheel may include a ferromagnetic rotor. The rotor may be generally annular and may define an open interior. The rotor may define a first plurality of teeth arranged about a periphery of the open interior. The device may include a stator disposed within the open interior. The stator may define a second plurality of teeth that are alignable with the first plurality of teeth. The stator may include a plurality of electro-permanent magnets. Each of the electro-permanent magnets may be disposed within a conductive coil. The device may include a position sensor that is configured to detect an angular position of the rotor. The device may include control circuitry that controls delivery of current to the electro-permanent magnets of the stator to controls a speed of the scroll wheel.

The disclosed embodiment discloses a lawn mower control method, system and related device based on a single joystick. The control method controls the operation of the lawn mower through a virtual single joystick on an electronic device. The method comprises: obtaining a first joystick value of the single joystick, wherein the first joystick value is configured to represent the control ability of the single joystick over the lawn mower; receiving a joystick value adjustment command for the single joystick, wherein the joystick value adjustment command includes target joystick value adjustment parameter; adjusting the first joystick value according to the target joystick value adjustment parameter to obtain a second joystick value; generating a control command based on the second joystick value and sending the control command to the lawn mower to control the lawn mower to work.