An apparatus for toggling circuits includes a plurality of parallel channels each having a first end and a second end, a plurality of ports transverse to the plurality of parallel channels, wherein each port has a plurality of valves corresponding to the plurality of parallel channels, wherein each valve selectively opens and closes in response to an input and wherein opening a valve fills a portion of a port with a conducting fluid. The apparatus also includes a controller communicatively coupled to the input of each valve and configured to complete an electric circuit between the first end of the parallel channel and the port corresponding to the valve when the controller opens the valve. A method executed by a computer and a corresponding computer program product are also disclosed herein.

An apparatus and method, the apparatus including a channel; at least one pair of electrodes provided within sides of the channel; a conductor configured to move through the channel such that when the conductor is positioned between the at least one pair of electrodes a current path is provided through the at least one pair of electrodes and the conductor; and wherein the at least one pair of electrodes are configured such that the position of the conductor within the channel controls the length of the current path and enables a time varying voltage to be provided.

An apparatus and method, the apparatus including a channel; at least one pair of electrodes provided within sides of the channel; a conductor configured to move through the channel such that when the conductor is positioned between the at least one pair of electrodes a current path is provided through the at least one pair of electrodes and the conductor; and wherein the at least one pair of electrodes are configured such that the position of the conductor within the channel controls the length of the current path and enables a time varying voltage to be provided.

An apparatus for toggling circuits includes a plurality of parallel channels each having a first end and a second end, a plurality of ports transverse to the plurality of parallel channels, wherein each port has a plurality of valves corresponding to the plurality of parallel channels, wherein each valve selectively opens and closes in response to an input and wherein opening a valve fills a portion of a port with a conducting fluid. The apparatus also includes a controller communicatively coupled to the input of each valve and configured to complete an electric circuit between the first end of the parallel channel and the port corresponding to the valve when the controller opens the valve. A method executed by a computer and a corresponding computer program product are also disclosed herein.

An apparatus for toggling circuits includes a plurality of parallel channels each having a first end and a second end, a plurality of ports transverse to the plurality of parallel channels, wherein each port has a plurality of valves corresponding to the plurality of parallel channels, wherein each valve selectively opens and closes in response to an input and wherein opening a valve fills a portion of a port with a conducting fluid. The apparatus also includes a controller communicatively coupled to the input of each valve and configured to complete an electric circuit between the first end of the parallel channel and the port corresponding to the valve when the controller opens the valve. A method executed by a computer and a corresponding computer program product are also disclosed herein.

The present invention provides a novel method and apparatus for a liquid-activated, lighted and flavored drink infuser. The invention enhances the water experience for any user by providing a liquid-activated, lighted, device with a dissolvable shell that, when placed in liquid, will light up and/or release into the liquid specific contents inside the infuser after the exterior dissolves.

The present invention provides a novel method and apparatus for a liquid-activated, lighted and flavored drink infuser. The invention enhances the water experience for any user by providing a liquid-activated, lighted, device with a dissolvable shell that, when placed in liquid, will light up and/or release into the liquid specific contents inside the infuser after the exterior dissolves.

An apparatus and method, the apparatus including a channel; at least one pair of electrodes provided within sides of the channel; a conductor configured to move through the channel such that when the conductor is positioned between the at least one pair of electrodes a current path is provided through the at least one pair of electrodes and the conductor; and wherein the at least one pair of electrodes are configured such that the position of the conductor within the channel controls the length of the current path and enables a time varying voltage to be provided.

An apparatus and method, the apparatus including a channel; at least one pair of electrodes provided within sides of the channel; a conductor configured to move through the channel such that when the conductor is positioned between the at least one pair of electrodes a current path is provided through the at least one pair of electrodes and the conductor; and wherein the at least one pair of electrodes are configured such that the position of the conductor within the channel controls the length of the current path and enables a time varying voltage to be provided.

The device 10 includes a liquid filled bellows activated battery composed of two non miscible fluids 14, 15 flowing through a channel 13 containing two electrodes 16, 17 of different metals. One of the fluids 14 is an electrolyte while the second 15 one is electrically non conducting. At rest the two electrodes 16, 17 are in the non conductive fluid 15. When the electrical device is actuated, manually or by an external force, the fluids surrounding the electrodes 16, 17 are replaced by the electrolyte 14 thus generating an electrical voltage between the two electrodes. The electrical current can be used to temporarily generate light or supply energy to another device. When the actuation mechanism is released, the electrodes 16, 17 are surrounded by the non conductive fluids 15 again and the electrical current is stopped.