Electronic leakage reduction techniques are provided, whereby a device is configured to detect characteristics of an appliance and its power supply when the appliance is off or otherwise placed in a mode for reduced power use by said appliance, and whereby voltage and power provided to the appliance are then substantially reduced. In other aspects of the disclosed technology, user behavior may also manually control power delivered to the appliance, for example, with a switch. In still other aspects of the disclosed technology, a device is configured to detect characteristics of an appliance and its power supply when the appliance is on or otherwise placed in a mode for higher power use by said appliance, and increases power to the appliance.

There is provided a distribution abnormality detecting device that detects a distribution abnormality of partitioned power with identification information, the distribution abnormality detecting device being configured to: determine that the distribution abnormality has occurred when an interval of the identification information detected during power distribution is different from an interval specified by the partitioned power.

An electronic device, comprising a housing; a magnetic element guideway, the guideway enables positioning of an accommodated magnetic element in at least two magnetic element positions relative to the housing. A control and evaluation circuit in a chamber with two Hall sensors for registering at least one component of a first local magnetic and for providing, a signal, which depends on the local magnetic field registered at the first site. The two Hall sensors have relative to the housing a defined position, wherein the control circuit is suitable based on the signals to detect whether a magnetic element is present in the gateway, and in case yes, based on at least one of the two signals, to detect whether the magnetic element is located in the first defined magnetic element position or has been moved from this position.

An electronic device is provided, which includes a fixing unit, a detection unit and a control unit. The fixing unit is adapted to maintain a position of the electronic device relative to a user when the user uses the electronic device. The detection unit is adapted to detect a spatial parameter of the electronic device being moved in a space. The control unit is adapted to obtain the spatial parameter, determine whether the spatial parameter matches a predetermined parameter condition, and control the electronic device to switch from a first operation mode to a second operation mode when the spatial parameter matches the predetermined parameter condition, wherein the first operation mode is different from the second operation mode.

A pressure-actuated switch having a pressure port, a diaphragm, a range spring, an actuator plate, a differential plate, and an electrical switch. A certain pressure level moves the diaphragm against the range spring at the pressure port and thus deflects the actuator plate. The actuator plate is coupled to the electrical switch via a snap spring, wherein the electrical switch can be switched on or off via the deflection of the actuator plate and the snap spring. The differential plate controlled by a differential spring is connected to the actuator plate and supports the actuator plate in a first portion of movement, wherein the differential plate is decoupled from the actuator plate in a second portion of movement of the actuator plate.

A limited reflection type sensor which irradiates exit light from a light emitting unit toward an object sensing region through an exit light lens and receives, at a light receiving unit, reflected light from an object existing in the object sensing region through a reflected light lens, may include a casing including a latching portion formed on a side surface and a first opening facing the object sensing region, the casing accommodating the light emitting unit and the light receiving unit; and a lens part including a light incident/exit part formed integrally with the exit light lens and the reflected light lens, and a side surface covering part in which an end of the light incident/exit part is extended along the side surface, in which the lens part covers the first opening with the light incident/exit part and the side surface covering part is latched by the latching portion.

Eyewear or other head-worn apparatus are fitted with an activation accessory that includes one or more switch elements integrated with or attached to a nose piece of the eyewear. The switch elements are communicably coupled to a processor-based controller so as to provide input signals to the controller responsive to wearer-initiated activations of the switch elements through interaction with a frame or temple piece of the eyewear. Upon receipt, the controller evaluates the input signals to determine whether or not they represent a command for the controlled device by assessing the input signals for a signal pattern indicative of such a command, and then, if the evaluation determines that the input signals do represent the command, issues the command to the controlled device. Otherwise the controller proceeds to receive and evaluate further input signals from the switch elements in a like manner as the first input signals.

Eyewear or other head-worn apparatus are fitted with an activation accessory that includes one or more switch elements integrated with or attached to a nose piece of the eyewear. The switch elements are communicably coupled to a processor-based controller so as to provide input signals to the controller responsive to wearer-initiated activations of the switch elements through interaction with a frame or temple piece of the eyewear. Upon receipt, the controller evaluates the input signals to determine whether or not they represent a command for the controlled device by assessing the input signals for a signal pattern indicative of such a command, and then, if the evaluation determines that the input signals do represent the command, issues the command to the controlled device. Otherwise the controller proceeds to receive and evaluate further input signals from the switch elements in a like manner as the first input signals.